Abstract
Cobalamin derivatives serve as coenzymes for the body's two cobalamin-dependent enzymes--adenosylcobalamin-dependent methylmalonyl CoA mutase, and methylcobalamin-dependent methionine methyltransferase. This essay reviews, in brief form and in personal terms, the history, beginning in the mid-1950s, of how these enzymes and coenzymes were discovered and what has been learned of their reaction mechanisms. It is clear that because of the fragility of the unique carbon-cobalt bond in cobalamin coenzymes, they serve primarily as free radical formers. This accounts for their efficiency in abstracting hydrogen from substrate molecules and for a subsequent chain of events that results in the isomerization of methylmalonyl CoA, the transfer of methyl groups, and (in certain bacteria) the reduction of ribonucleotides. Some thoughts are offered on the possible evolutionary significance of these facts.
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