Characterization of KpsT, the ATP-binding component of the ABC-transporter involved with the export of capsular polysialic acid in Escherichia coli K1.

Abstract The 17-kilobase kps gene cluster of Escherichia coli K1 contains all the information necessary for the expression of capsular polysaccharide. Region 3 of the cluster encodes two genes, kpsM and kpsT, whose products belong to the ATP-Binding Cassette (ABC)-transporter protein family. The KpsMT system is involved with the export of capsular polysaccharide in E. coli. Earlier work indicated that interaction between KpsT and ATP is important for transport. In this study, we report that KpsT, a peripheral inner membrane protein, can be photolabeled by the ATP analog, 8-N3[gamma-32P]ATP. The derivatization of KpsT by this reagent is inhibited by cold ATP or ATP gamma S. Furthermore, the protein seems to require a membrane environment for efficient photolabeling, but does not require any other kps gene products. Results obtained from saturation mutagenesis of the ATP-binding consensus sequence of KpsT and the phenotypes of strains with defined mutations in the chromosomal gene, are consistent with the view that ATP-binding by KpsT is required for transport of polymer across the inner membrane. The structure of KpsT was compared to a model developed for other ABC-transport proteins, and important functional regions were determined. The results obtained from chemical mutagenesis of kpsT are consistent with the model and revealed characteristics particular to capsule transporters.