The activities of the Escherichia coli MalK protein in maltose transport, regulation, and inducer exclusion can be separated by mutations

Abstract

The maltose regulon consists of several genes encoding proteins involved in the uptake and utilization of maltose and maltodextrins. Five proteins make up a periplasmic binding-protein-dependent active transport system. One of these proteins, MalK, contains an ATP-binding site and is thought to couple the hydrolysis of ATP to the accumulation of substrate. Beside its function in transport, MalK has two additional roles: (i) it negatively regulates mal regulon expression and (ii) it serves as the target for regulation of transport activity by enzyme IIIGlc of the phosphotransferase system. To determine whether the three functions of MalK are separable, we have isolated and characterized three classes of malK mutations. The first type (class I) exhibited constitutive mal gene expression but still allowed normal transport of maltose; the second type (class II) lacked the ability to transport maltose but retained the ability to repress the mal genes. Class I mutations were localized in the last third of the gene, at amino acids 267 (Trp to Gly) and 346 (Gly to Ser). Mutations of class II were found at the positions 137 (Gly to Ala), 140 (delta Gln Arg), and 158 (Asp to Asn). These mutations are near or within the region of MalK that exhibits extensive homology to the B site of an ATP-binding fold. In addition, site-directed mutagenesis was used to add or remove one amino acid in the A site of the ATP-binding fold. Plasmids carrying these mutations also behaved as class II mutants. The third class of malK mutations resulted in resistance to the enzyme IIIGlc-mediated inhibitory effects of alpha-methylglucoside. These mutations did not interfere with the regulatory function of MalK. One of these mutations (exchanging a serine at position 282 for leucine) is located in a short stretch of amino acids that exhibits homology to a sequence in the Escherichia coli Lac permease in which alpha-methylglucoside-resistant mutations have been found.