Overproduction of MalK protein prevents expression of the Escherichia coli mal regulon

Abstract

The mal regulon of Escherichia coli comprises a large family of genes whose function is the metabolism of linear maltooligosaccharides. Five gene products are required for the active accumulation of maltodextrins as large as maltoheptaose. Two cytoplasmic gene products are necessary and sufficient for the intracellular catabolism of these sugars. Two newly discovered enzymes have the capacity to metabolize these sugars but are not essential for their catabolism in wild-type cells. A single regulatory protein, MalT, positively regulates the expression of all of these genes in response to intracellular inducers, one of which has been identified as maltotriose. In the course of studying the mechanism of the transport system, we have placed the structural gene for one of the transport proteins, MalK, under the control of the Ptrc promoter to produce large amounts of this protein. We found that although high-level expression of MalK was not detrimental to E. coli, the increased amount of MalK decreased the basal-level expression of the mal regulon and prevented induction of the mal system even in the presence of external maltooligosaccharides. Constitutive mutants in which MalT does not depend on the presence of the internal inducer(s) were unaffected by the increased levels of the MalK protein. These results are consistent with the idea that MalK protein somehow interferes with the activity of the MalT protein. Different models for the regulatory function of MalK are discussed.