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1. Oxidoreductases

1.3 Acting on the CH-CH group of donors

1.3.99 With unknown physiological acceptors

ID:	1.3.99.39
Description:	Carotenoid phi-ring synthase.

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UniProtKB Enzyme Link:	UniProtKB 1.3.99.39
BRENDA Enzyme Link:	BRENDA 1.3.99.39
KEGG Enzyme Link:	KEGG1.3.99.39
BioCyc Enzyme Link:	BioCyc 1.3.99.39
ExPASy Enzyme Link:	ExPASy1.3.99.39
EC2PDB Enzyme Link:	EC2PDB 1.3.99.39
ExplorEnz Enzyme Link:	ExplorEnz 1.3.99.39
PRIAM enzyme-specific profiles Link:	PRIAM 1.3.99.39
IntEnz Enzyme Link:	IntEnz 1.3.99.39
MEDLINE Enzyme Link:	MEDLINE 1.3.99.39

RHEA:22524	2 A + a carotenoid beta-end derivative = a carotenoid phi-end derivative + 2 AH2
RULE(radius=1)	[:1]-[C;H0;+0:2]1=[C;H0;+0:3](-[:4])-[C;H0;+0:5](-[:6])(-[CH3;+0:7])-[CH2;+0:8]-[CH2;+0:9]-[CH2;+0:10]-1>>[:1]-[c;H0;+0:2]1:[cH;+0:10]:[cH;+0:9]:[c;H0;+0:8](-[CH3;+0:7]):[c;H0;+0:5](-[:6]):[c;H0;+0:3]:1-[:4]
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Core-to-Core	More

Title	Authors	Date	PubMed ID
Biosynthetic studies on aromatic carotenoids. Biosynthesis of chlorobactene.	Moshier SE, Chapman DJ	1973 Oct	4774401
Isorenieratene biosynthesis in green sulfur bacteria requires the cooperative actions of two carotenoid cyclases.	Maresca JA, Romberger SP, Bryant DA	2008 Oct	18676669
Genetic manipulation of carotenoid biosynthesis in the green sulfur bacterium Chlorobium tepidum.	Frigaard NU, Maresca JA, Yunker CE, Jones AD, Bryant DA	2004 Aug	15292122
Functional analysis of genes from Streptomyces griseus involved in the synthesis of isorenieratene, a carotenoid with aromatic end groups, revealed a novel type of carotenoid desaturase.	Krügel H, Krubasik P, Weber K, Saluz HP, Sandmann G	1999 Jul 9	10395965