2.1.1.210: demethylspheroidene O-methyltransferase
This is an abbreviated version!
For detailed information about demethylspheroidene O-methyltransferase, go to the full flat file.
Reaction
Synonyms
1-HO-carotenoid methylase, 1-hydroxycarotenoid methylase, 1-hydroxycarotenoid O-methylase, acyclic 1-hydroxycarotenoid methyltransferase, CrtF
ECTree
Advanced search results
General Information
General Information on EC 2.1.1.210 - demethylspheroidene O-methyltransferase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
malfunction
metabolism
physiological function
-
the enzyme is involved in spheroidene biosynthesis pathway and spirilloxanthin biosynthesis pathway. Methylated carotenoids, such as spheroidene and spirilloxanthin, function as accessory pigments in the light-harvesting and reaction-center complexes of purple bacteria
-
mutants with a lesion in crtF accumulate demethylspheroidene as their major carotenoid during anaerobic growth and demethylspheroidenone when grown in the presence of oxygen
malfunction
-
the combined manipulation of crtF and crtA allows new carotenoids to be produced and broadenes the diversity of structurally different carotenoids synthesized by Rubriovivax gelatinosus
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
-
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
-
metabolism
-
CrtF is involved in carotenogenesis and the spirilloxanthin pathway. The variation of carotenoids among the species of Rhodoplanes results from modified substrate specificity of the carotenogenesis enzymes involved, besides CrtF, acyclic carotene 1,2-hydratase CrtC and acyclic carotenoid 3,4-desaturase CrtD are involved
-