Energy to power the rotation of bacterial flagella can be derived from the proton or sodium transmembrane potential. Until new, genes encoding a bacterial sodium-type flagellar motor have not been defined. A gene, motY, encoding one component of the sodium-type flagellar motor of Vibrio parahaemolyticus was cloned by complementation of a Mot(-) mutant strain. Sequencing revealed an open reading frame of 879 nucleotides in which a transposon conferring a motility defect mapped. Overexpression of motY in Escherichia coli allowed identification of a product 33 kDa in apparent size on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This size correlated well with the predicted molecular mass of 33,385 Da. Unlike mot genes identified in other bacterial localized transposon mutagenesis suggested that the locus was not an extended region containing multiple genes required for swimming motility. Sequencing upstream and downstream of motY confirmed that the gene maps alone and placed it within a locus homologous to the E. coli mt locus. Although data bank searches failed to reveal significant similarity to known motility components, the carboxyl terminus of MotY showed extensive homology to a number of outer membrane proteins known to interact with peptidoglycan, including OmpA and peptidoglycan-associated lipoproteins. To a limited extent, this domain could also be identified in the Bacillus subtilis MotB protein. This finding suggests that MotY plays the role of a stator in the sodium flagellar motor, stabilizing the farce-generating unit through direct interaction with the cell wall.

• 出版日期1994-7