Reversible cleavage of the cobalt-carbon bond to coenzyme B12 catalysed by methylmalonyl-CoA mutase from Propionibacterium shermanii. The use of coenzyme B12 stereospecifically deuterated in position 5'.

1. (5'R)-(5'-2H1)Adenosine [(5'R):(5'S) = 85:15] was prepared by a procedure which involved inter alia the reduction of 6-N-benzoyl-2',3'-O-isopropylidene-5'-oxoadenosine with a reagent obtained from LiAl2H4 and (-)-isoborneol. 2. (5'S)-(5'-2H1)AdoCbl [(5'S):(5'R) = 74:26] (AdoCbl = 5'-deoxyadenosylcobalamin) was synthesized by reacting cobal(I)amin with (5'R)-2'-3'-O-isopropylidene-5'-tosyl-(5'-2H1) adenosine followed by acid hydrolysis to remove the isopropylidene protective group. 3. (5'R)-(5'-2H1)AdoCbl [(5'R):(5'S) = 77:23] was prepared by reacting cobalt(I)amin with (5'S)-5'-chloro-5'-(5'-2H1)deoxyadenosine [(5'S):(5'R) = 80:20] obtained in turn from (5'R)-(5'-2H1)adenosine. The reaction sequence involved two consecutive inversions at the C-5' atom of adenosine 4. Comparison of the 500-MHz 1H-NMR spectra of unlabelled, (5'S)- and (5'R)-(5'-2H1)AdoCbl allowed assignment of the triplet at 0.58 ppm and the doublet at 1.525 ppm to the diastereotopic 5'-HRe and 5'-HSi atoms, respectively. On acidification, these two protons gave rise to two triplets at 0.11 ppm and 1.78 ppm indicating that torsion had occurred around the C-4'--C-5' bond. 5. Samples of (5'R)- and (5'S)-(5'-2H1)AdoCbl were incubated with methylmalonyl-CoA mutase from Propionibacterium shermanii. Examination by 1H-NMR spectroscopy at 500 MHz revealed partial loss and stereochemical scrambling of the deuterium at the 5' position. This indicates transient conversion of the C-5' atom into a torsiosymmetric group and hence cleavage of the cobalt-carbon bond during interaction with the enzyme. The mechanism by which deuterium is lost remains to be elucidated.