Biosynthesis of the 3-acetyl and 13(1)-oxo groups of bacteriochlorophyll a in the facultative aerobic bacterium, Rhodovulum sulfidophilum--the presence of both oxygenase and hydratase pathways for isocyclic ring formation.

Using (18)O-labelling and mass spectrometry, we have examined bacteriochlorophyll a formation in Rhodovulum sulfidophilum, formerly known as Rhodobacter sulfidophilus, which forms large amounts of BCh1 a both aerobically in the dark and anaerobically in the light. R. sulfidophilum, growing under strict anaerobiosis in the light, possesses hydratases which incorporate (18)O label from H2(18)O into both the 13(1)-oxo and 3-acetyl oxygens; in addition, the four carboxyl oxygens at C13(3) and C17(3) were labelled by H2(18)O. Under aerobic conditions in the dark, the labelling of the 13(1)-oxo group by H2(18)O was reduced indicating that (16)O was being incorporated into this group from air. R. sulfidophilum, grown in the dark under an atmosphere initially containing 50% (18)O2 in Ar, possessed an oxygenase which incorporated (18)O label from (18)O2 specifically into the 13(1)-oxo group; under these conditions the acetyl and carboxyl groups remained unlabelled. Thus, both an oxygenase and hydratase operate in R. sulfidophilum to form the 13(1)-oxo group of ring E of BCh1 a; the 3-acetyl group oxygen, however, arises only from water via a hydratase.