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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:	1.13.11.59
Description:	Torulene dioxygenase.

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UniProtKB Enzyme Link:	UniProtKB 1.13.11.59
BRENDA Enzyme Link:	BRENDA 1.13.11.59
KEGG Enzyme Link:	KEGG1.13.11.59
BioCyc Enzyme Link:	BioCyc 1.13.11.59
ExPASy Enzyme Link:	ExPASy1.13.11.59
EC2PDB Enzyme Link:	EC2PDB 1.13.11.59
ExplorEnz Enzyme Link:	ExplorEnz 1.13.11.59
PRIAM enzyme-specific profiles Link:	PRIAM 1.13.11.59
IntEnz Enzyme Link:	IntEnz 1.13.11.59
MEDLINE Enzyme Link:	MEDLINE 1.13.11.59

RHEA:31519	O2 + torulene = 3-methyl-2-butenal + 4'-apo-beta-carotenal
RULE(radius=1)	[:1]-[CH;+0:2]=[CH;+0:3]-[:4].[O;H0;+0:5]=[O;H0;+0:6]>>[:1]-[CH;+0:2]=[O;H0;+0:5].[:4]-[CH;+0:3]=[O;H0;+0:6]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

Title	Authors	Date	PubMed ID
Novel apocarotenoid intermediates in Neurospora crassa mutants imply a new biosynthetic reaction sequence leading to neurosporaxanthin formation.	Estrada AF, Maier D, Scherzinger D, Avalos J, Al-Babili S	2008 Nov	18812228
Identification of the gene responsible for torulene cleavage in the Neurospora carotenoid pathway.	Saelices L, Youssar L, Holdermann I, Al-Babili S, Avalos J	2007 Nov	17610084
Identification and biochemical characterization of a novel carotenoid oxygenase: elucidation of the cleavage step in the Fusarium carotenoid pathway.	Prado-Cabrero A, Estrada AF, Al-Babili S, Avalos J	2007 Apr	17493127