bchFNBH bacteriochlorophyll synthesis genes of Rhodobacter capsulatus and identification of the third subunit of light-independent protochlorophyllide reductase in bacteria and plants.
(1) 3-devinyl-3-(1-hydroxyethyl)chlorophyllide a = chlorophyllide a + H2O [RN:R09059];
(2) 3-deacetyl-3-(1-hydroxyethyl)bacteriochlorophyllide a = 3-deacetyl-3-vinylbacteriochlorophyllide a + H2O [RN:R09054]
3-devinyl-3-(1-hydroxyethyl)chlorophyllide a [CPD:C18154];
3-deacetyl-3-(1-hydroxyethyl)bacteriochlorophyllide a [CPD:C18153]
Product
chlorophyllide a [CPD:C02139];
H2O [CPD:C00001];
3-deacetyl-3-vinylbacteriochlorophyllide a [CPD:C18152]
Comment
The enzyme, together with EC 1.3.7.15, chlorophyllide-a reductase, and EC 1.1.1.396, bacteriochlorophyllide-a dehydrogenase, is involved in the conversion of chlorophyllide a to bacteriochlorophyllide a. The enzymes can act in multiple orders, resulting in the formation of different intermediates, but the final product of the cumulative action of the three enzymes is always bacteriochlorophyllide a. The enzyme catalyses the hydration of a vinyl group on ring A, converting it to a hydroxyethyl group.
bchFNBH bacteriochlorophyll synthesis genes of Rhodobacter capsulatus and identification of the third subunit of light-independent protochlorophyllide reductase in bacteria and plants.
Broadened Substrate Specificity of 3-Hydroxyethyl Bacteriochlorophyllide a Dehydrogenase (BchC) Indicates a New Route for the Biosynthesis of Bacteriochlorophyll a.
Harada J, Teramura M, Mizoguchi T, Tsukatani Y, Yamamoto K, Tamiaki H
Title
Stereochemical conversion of C3-vinyl group to 1-hydroxyethyl group in bacteriochlorophyll c by the hydratases BchF and BchV: adaptation of green sulfur bacteria to limited-light environments.