Membrane disposition of the Escherichia coli mannitol permease: identification of membrane-bound and cytoplasmic domains

Abstract

Two proteolytic fragments of the Escherichia coli mannitol permease (EIImtl) have been identified on autoradiograms of sodium dodecyl sulfate-polyacrylamide gels and mapped with respect to the membrane. EIImtl was selectively radiolabeled with either [35S]methionine or a mixture of 14C-labeled amino acids in E. coli minicells harboring a plasmid containing the mannitol operon. The intact permease (Mr 65,000) in everted vesicles derived from labeled minicells was cleaved by mild trypsinolysis into two smaller fragments (Mr 34,000 and 29,000). The 34,000-dalton fragment remained in the membrane and was insensitive to further proteolysis by trypsin. This fragment was identified as the N-terminal half of the protein by comparing the amount of the original [35S]methionine label that it retained with the known differential distribution of methionine in the two halves of EIImtl. The 29,000-dalton fragment, which was released into the soluble fraction and was sensitive to further trypsinolysis, therefore corresponds to the C-terminal half of the mannitol permease. Both fragments were shown to be antigenically related to EIImtl by immunoblotting with anti-EIImtl antibody. The 34,000-dalton fragment was further shown to form an oligomer under conditions which allow the intact enzyme to dimerize, suggesting that this domain plays an important role in EIImtl subunit interactions. These results support a model in which EIImtl consists of two domains of approximately equal size: a membrane-bound, N-terminal domain with a tendency to self-associate, and a cytoplasmic C-terminal domain. Finally, the techniques described in this paper should be of general use in studying the membrane disposition of E. coli proteins provided that the gene encoding the membrane protein of interest can be cloned and expressed in a minicell system.