The mechanism of sugar‐dependent repression of synthesis of catabolic enzymes in escherichia coli

Abstract

Previous studies have indicated that the Escherichia coli adenylate cyclase (AC) activity is controlled by an interaction with the phosphoenolpyruvate (PEP): sugar phosphotransferase system (PTS). A model for the regulation of AC involving the phosphorylation state of the PTS is described. Kinetic studies support the concept that the velocity of AC is determined by the opposing contributions of PEP-dependent phosphorylation (V₁) and sugar-dependent dephosphorylation (V₂) of the PTS proteins according to the expression % V_AC = 100/[1 + (Max V₂/Max V₁)]. Physiological parameters influencing the rate of the PTS are discussed in the framework of their effects on cAMP metabolism. Factors that increase cellular concentration of PEP (and stimulate V₁) appear to enhance AC activity while increases in extracellular sugar concentration (which stimulate V₂) or internal levels of pyruvate (which inhibit V₁) inhibit the activity of this enzyme.