Control of malate synthase formation in Rhizopus nigricans

Abstract

The control of malate synthase formation in a fumaric acid-producing strain of Rhizopus nigricans has been found to be similar in most respects to that of isocitrate lyase, the companion enzyme of the glyoxylate bypass. A basal level is formed in a casein hydrolysate medium, which is repressed by glucose. Utilization of glucose during growth results in relief of glucose repression. Any factor which stimulates growth promotes relief of glucose repression by enhancing the incorporation of repressor metabolites derived from glucose into cell material. Thus, malate synthase formation was enhanced in glucose-containing media by the addition of zinc, or by an increase of the concentration of available nitrogen source in a synthetic medium. Both acetate and glycolate acted as apparent inducers of malate synthase, with glycolate the more effective of the two when added alone. Acetate induction was enhanced by Zn(++), however, whereas induction by glycolate was unaffected. This supports the concept that acetate stimulates formation of glyoxylate bypass enzymes by a derepression mechanism, whereas glycolate or a product derived from it acts directly as an inducer. Moreover, it is indicated that the malate synthases induced by acetate and glycolate are separate and distinct, as has been shown in Escherichia coli.