Anaerobic degradation of malonatevia malonyl-CoA bySporomusa malonica,Klebsiella oxytoca,andRhodobacter capsulatus

Anaerobic decarboxylation of malonate to acetate was studied withSporomusa malonica, Klebsiella oxytoca, andRhodobacter capsulatus. WhereasS. malonica could grow with malonate as sole substrate (Y=2.0 g·mol^–1), malonate decarboxylation byK. oxytoca was coupled with anaerobic growth only in the presence of a cosubstrate, e.g. sucrose or yeast extract (Y _s =1.1–1.8 g·mol malonate^–1).R. capsulatus used malonate anaerobically only in the light, and growth yields with acetate and malonate were identical. Malonate decarboxylation in cell-free extracts of all three bacteria was stimulated by catalytic amounts of malonyl-CoA, acetyl-CoA, or Coenzyme A plus ATP, indicating that actually malonyl-CoA was the substrate of decarboxylation. Less than 5% of malonyl-CoA decarboxylase activity was found associated with the cytoplasmic membrane. Avidin (except forK. oxytoca) and hydroxylamine inhibited the enzyme completely, EDTA inhibited partially. InS. malonica andK. oxytoca, malonyl-CoA decarboxylase was active only after growth with malonate; malonyl-CoA: acetate CoA transferase was found as well. These results indicate that malonate fermentation by these bacteria proceedsvia malonyl-CoA mediated by a CoA transferase and that subsequent decarboxylation to acetyl-CoA is catalyzed, at least withS. malonica andR. capsulatus, by a biotin enzyme.Abbreviations CoASH Coenzyme A - EDTA ethylenediamine tetraacetate