Abstract

The mannitol permease, or D-mannitol-specific enzyme II of the phosphoenolpyruvate-dependent carbohydrate phosphotransferase system (PTS) of Escherichia coli, both transports and phosphorylates its substrate. Previous analyses of the amino acid sequences of PTS permeases specific for various carbohydrates in different species of bacteria revealed several regions of similarity. The most highly conserved region includes a GIXE motif, in which the glutamate residue is completely conserved among the permeases that contain this motif. The corresponding residue in the E. coli mannitol permease is Glu-257, which is located in a large putative cytoplasmic loop of the transmembrane domain of the protein. We used site-directed mutagenesis to investigate the role of Glu-257. The properties of proteins with mutations at position 257 suggest that a carboxylate side chain at this position is essential for mannitol binding. E257A and E257Q mutant proteins did not bind mannitol detectably, while the E257D mutant could still bind this substrate. Kinetic studies with the E257D mutant protein also showed that a glutamate residue at position 257 of this permease is specifically required for efficient mannitol transport. While the E257D permease phosphorylated mannitol with kinetic parameters similar to those of the wild-type protein, the Vmax for mannitol uptake by this mutant protein is less than 5% that of the wild type. These results suggest that Glu-257 of the mannitol permease and the corresponding glutamate residues of other PTS permeases play important roles both in binding the substrate and in transporting it through the membrane.

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