Synthesis and localization of α-amylase and α-glucosidase in Bacillus licheniformis grown in batch and continuous culture

In batch and continuous cultures of Bacillus licheniformis NC1B 6346 α-amylase was invariably extracellular and could not be detected in the cytoplasm or cell surface. α-Glucosidase however, was largely intracellular but at the end of exponential growth and during slow growth under Mg²⁺ limitation it was detected in the culture fluid. Both enzymes were susceptible to catabolite repression and glucose totally inhibited their synthesis in batch culture. In maltose-limited chemostat culture, synthesis of both enzymes was maximal at D = 0.2/h and declined at higher growth rates. α-Amylase synthesis was constitutive but α-glucosidase synthesis was induced by maltose and maltotriose but not by methyl-α-D-glucoside or phenyl-α-D-glucoside. α-Amylase was synthesized at pH 6.5 and above in maltose-limited chemostat culture but not below this pH. Intracellular α-glucosidase synthesis varied little with pH. Increasing temperature decreased the synthesis of both enzymes in chemostat culture to the extent that α-glucosidase was undetectable at 50° C. Polar lipid composition varied with pH and temperature but there was no correlation between this and enzyme secretion. Moreover cerulenin, an antibiotic that inhibits protein secretion in some bacteria by interacting with the membrane had no effect on α-amylase secretion but decreased the release of α-glucosidase upon protoplast formation.