The biosynthesis of vitamin B12.

The use of 13C-Fourier transform nuclear magnetic resonance (F.t.-n.m.r.) has led to the observation that while 8 molecules of [2-13C]ALA are incorporated into vitamin B12 in P. shermanii, [5-13C]ALA labels only seven of the carbon atoms of cyanocobalamin, i.e. one of the amino methyl groups of ALA is "lost" in the process. It has also been confirmed that seven of the methyl groups of B12 are derived from 13CH3-enriched methionine and further that the chirality of the gemdimethyl grouping at C12 labelled with [13CH3]methionine is R. A soluble enzyme mixture from the 37000 or 100000 g supernatant of disrupted cells of P. shermanii converts both 14 C-labelled ALA and [14C]uro'gen III to cobyrinic acid, the simplest corrinoid material on the pathway to vitamin B12 and the coenzyme, in presence of NADPH, Co2+, Mg2+, S-adenosyl-methionine and glutathione. Multiply-labelled uro'gens (13C, 14C and 3H) have been used to show that incorporation takes place without randomization. A sequence for corrin synthesis from uro'gen III is presented.