Versatile properties of a nonsaturable, homogeneous transport system in Bacilus subtilis: genetic, kinetic, and affinity labeling studies

Abstract

The mutliphasic kinetics that characterize the transport of many amino acids into Bacillus subtilis suggests a priori at least two mechanisms: (i) a tilis suggests a prior at least two independent transport processes, or (ii) a single, homogeneous system that might involve a negative cooperative mechanism. The highly specific transport system for L-tyrosine and L-phenylalanine in B. subtilis was studied as a case in point. The possible presence of a mixed system of independent transport systems was negated by the rentention of multiphasic kinetics of transport in two types of permease mutants. Furthermore, evaluation of kinetic data obtained during transport under various uptake conditions of pH and temperature, or in the presence of metabolic inhibitors, did not reveal the heterogeneity expected of mechanism (i). These data, taken together with characteristics of substrate specificity and affinity labeling, provide substantial support for a negative cooperative mechanism for L-tyrosine and L-phenylalanine transport.