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2,3-dihydroxybenzoic acid + NAD(P)H + O2 + H2O
?
-
Substrates: -
Products: -
?
anthranilate + NADPH + H+ + O2
catechol + CO2 + NADP+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + alanine + O2
?
anthranilic acid + alanine + O2
catechol + CO2 + NH3 + ?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
anthranilic acid + NADH + O2 + H2O
catechol + CO2 + NAD+ + NH3
benzoate + NAD(P)H + O2 + H2O
benzoate dihydrodiol + ?
catechol + O2 + NAD(P)H + H2O
?
-
Substrates: -
Products: -
?
protocatechuic acid + NAD(P)H + O2 + H2O
?
-
Substrates: -
Products: -
?
salicylic acid + NAD(P)H + O2 + H2O
?
Substrates: -
Products: -
?
additional information
?
-
-
Substrates: salicylic acid and o-aminophenol are no substrates
Products: -
?
anthranilic acid + alanine + O2
?
Substrates: -
Products: -
?
anthranilic acid + alanine + O2
?
Substrates: -
Products: -
?
anthranilic acid + alanine + O2
catechol + CO2 + NH3 + ?
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + alanine + O2
catechol + CO2 + NH3 + ?
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds, enables growth on anthranilate as sole carbon source
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds, enables growth on anthranilate as sole carbon source
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NADH + O2 + H2O
catechol + CO2 + NAD+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NADH + O2 + H2O
catechol + CO2 + NAD+ + NH3
-
Substrates: -
Products: -
?
benzoate + NAD(P)H + O2 + H2O
benzoate dihydrodiol + ?
Substrates: poor substrate
Products: -
?
benzoate + NAD(P)H + O2 + H2O
benzoate dihydrodiol + ?
Substrates: poor substrate
Products: -
?
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anthranilate + NADPH + H+ + O2
catechol + CO2 + NADP+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + alanine + O2
catechol + CO2 + NH3 + ?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
anthranilic acid + alanine + O2
catechol + CO2 + NH3 + ?
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + alanine + O2
catechol + CO2 + NH3 + ?
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds, enables growth on anthranilate as sole carbon source
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds, enables growth on anthranilate as sole carbon source
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
Substrates: involved in the tryptophan degradation pathway
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: initial step in aerobic degradation of aromatic compounds
Products: -
?
anthranilic acid + NAD(P)H + O2 + H2O
catechol + CO2 + NAD(P)+ + NH3
-
Substrates: -
Products: -
?
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Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
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Bundy, B.M.; Campbell, A.L.; Neidle, E.L.
Similarities between the antABC-encoded anthranilate dioxygenase and the benABC-encoded benzoate dioxygenase of Acinetobacter sp. strain ADP1
J. Bacteriol.
180
4466-4474
1998
Acinetobacter sp., Acinetobacter sp. ADP1, Pseudomonas sp.
brenda
Taniuchi, H.; Hatanaka, M.; Kuno, S.; Hayaishi, O.; Nakajima, M.; Kurihara, N.
Enzymatic formation of catechol from anthranilic acid
J. Biol. Chem.
239
2204-2211
1964
Pseudomonas fluorescens
brenda
Roenberg, S.L.; Hegeman, G.D.
Genetics of the mandelate pathway in Pseudomonas aeruginosa
J. Bacteriol.
108
1270-1276
1971
Pseudomonas aeruginosa
brenda
Wheels, M.L.
Regulation of the synthesis of enzymes of tryptophan dissimilation in Acinetobacter calcoaceticus
Arch. Mikrobiol.
87
1-9
1972
Acinetobacter calcoaceticus
brenda
Salcher, O.; Lingens, F.
Metabolism of tryptophan by Pseudomonas aureofaciens and its relationship to pyrrolnitrin biosynthesis
J. Gen. Microbiol.
121
465-471
1980
Pseudomonas chlororaphis subsp. aureofaciens
brenda
Macheroux, Peter; Kojiro, C.L.; Schopfer, L.M.; Chakraborty, S.; Massey, V.
F NMR studies on fluoroflavins and 8-fluoroflavoproteins
Biochemistry
29
2670-2679
1990
Cutaneotrichosporon cutaneum
brenda
Eby, D.M.; Beharry, Z.M.; Coulter, E.D.; Kurtz, D.M., Jr.; Neidle, E.L.
Characterization and evolution of anthranilate 1,2-dioxygenase from Acinetobacter sp. strain ADP1
J. Bacteriol.
183
109-118
2001
Acinetobacter sp., Acinetobacter sp. ADP1, Pseudomonas sp.
brenda
Beharry, Z.M.; Eby, D.M.; Coulter, E.D.; Viswanathan, R.; Neidle, E.L.; Phillips, R.S.; Kurtz, D.M., Jr.
Histidine ligand protonation and redox potential in the Rieske dioxygenases: Role of a conserved aspartate in anthranilate 1,2-Dioxygenase
Biochemistry
42
13625-13636
2003
Acinetobacter sp., Acinetobacter sp. ADP1
brenda
Chang, H.K.; Mohseni, P.; Zylstra, G.J.
Characterization and regulation of the genes for a novel anthranilate 1,2-dioxygenase from Burkholderia cepacia DBO1
J. Bacteriol.
185
5871-5881
2003
Burkholderia cepacia (Q84BZ2), Burkholderia cepacia (Q84BZ3), Burkholderia cepacia, Burkholderia cepacia DBO1 / ATCC 29424 (Q84BZ2), Burkholderia cepacia DBO1 / ATCC 29424 (Q84BZ3)
brenda
Urata, M.; Miyakoshi, M.; Kai, S.; Maeda, K.; Habe, H.; Omori, T.; Yamane, H.; Nojiri, H.
Transcriptional regulation of the ant operon, encoding two-component anthranilate 1,2-dioxygenase, on the carbazole-degradative plasmid pCAR1 of Pseudomonas resinovorans strain CA10
J. Bacteriol.
186
6815-6823
2004
Pseudomonas resinovorans, Pseudomonas resinovorans CA10
brenda
Iwaki, H.; Hasegawa, Y.
Degradation of 2-nitrobenzoate by Burkholderia terrae strain KU-15
Biosci. Biotechnol. Biochem.
71
145-151
2007
Paraburkholderia terrae, Paraburkholderia terrae KU-15
brenda
Balderas-Hernandez, V.; Trevino-Quintanilla, L.; Hernandez-Chavez, G.; Martinez, A.; Bolivar, F.; Gosset, G.
Catechol biosynthesis from glucose in Escherichia coli anthranilate-overproducer strains by heterologous expression of anthranilate 1,2-dioxygenase from Pseudomonas aeruginosa PAO1
Microb. Cell Fact.
13
136
2014
Pseudomonas aeruginosa
brenda