Methylcitrate Condensing and Methylisocitrate Cleaving Enzymes; Evidence for the Pathway of Oxidation of Propionyl-CoA to Pyruvate via C₇-Tricarboxylic Acids

Abstract

Previously a cyclic pathway for the partial oxidation of propionyl-CoA to pyruvate has been proposed. Enzymatic evidence for the presence of the key reactions involved in this pathway is described and discussed herein. The condensation of propionyl-CoA with oxaloacetate into methylcitrate is shown to be catalyzed by an enzyme contained in cell-free extracts of Candida lipolytica; the enzyme seems to differ from the usual citrate synthase. Methylcitrate is easily convertible to a mixture of C₇-acids by the action of cell-free extract of the mutant strain. On the other hand, a similar mixture is changed into pyruvate and succinate by the action of cell-free extract of the parent strain. Evidence is given that methylisocitrate, one of the products of the conversion, is mainly cleaved by the action of an additional enzyme other than the usual isocitrate lyase. The accumulation of methylisocitrate in a large amount from odd-carbon n-alkanes by the mutant strain can be safely ascribed to the absence or a low level of this enzyme in the mutant strain.