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1. Oxidoreductases

1.13 Acting on single donors with incorporation of molecular oxygen (oxygenases)

1.13.11 With incorporation of two atoms of oxygen

ID:	1.13.11.80
Description:	(3,5-dihydroxyphenyl)acetyl-CoA 1,2-dioxygenase.
Cath:	3.90.226.10; 1.20.58.130; 1.20.58.1300;

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UniProtKB Enzyme Link:	UniProtKB 1.13.11.80
BRENDA Enzyme Link:	BRENDA 1.13.11.80
KEGG Enzyme Link:	KEGG1.13.11.80
BioCyc Enzyme Link:	BioCyc 1.13.11.80
ExPASy Enzyme Link:	ExPASy1.13.11.80
EC2PDB Enzyme Link:	EC2PDB 1.13.11.80
ExplorEnz Enzyme Link:	ExplorEnz 1.13.11.80
PRIAM enzyme-specific profiles Link:	PRIAM 1.13.11.80
IntEnz Enzyme Link:	IntEnz 1.13.11.80
MEDLINE Enzyme Link:	MEDLINE 1.13.11.80

RHEA:44632	(3,5-dihydroxyphenyl)acetyl-CoA + O2 = 2-(3,5-dihydroxyphenyl)-2-oxoacetate + CoA + H(+)
RULE(radius=1)	[:1]=[C;H0;+0:2](-[CH2;+0:3]-[:4])-[S;H0;+0:5]-[:6].[O;H0;+0:7]=[O;H0;+0:8]>>[:6]-[SH;+0:5].[:1]=[C;H0;+0:2](-[OH;+0:7])-[C;H0;+0:3](-[:4])=[O;H0;+0:8]
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Title	Authors	Date	PubMed ID
Substrate recognition and catalysis by the cofactor-independent dioxygenase DpgC.	Fielding EN, Widboom PF, Bruner SD	2007 Dec 11	18004875
RNA polymerase II carboxy-terminal domain contributes to the response to multiple acidic activators in vitro.	Liao SM, Taylor IC, Kingston RE, Young RA	1991 Dec	1752437
Structural basis for cofactor-independent dioxygenation in vancomycin biosynthesis.	Widboom PF, Fielding EN, Liu Y, Bruner SD	2007 May 17	17507985
Glycopeptide antibiotic biosynthesis: enzymatic assembly of the dedicated amino acid monomer (S)-3,5-dihydroxyphenylglycine.	Chen H, Tseng CC, Hubbard BK, Walsh CT	2001 Dec 18	11752437