Limited homology between trg and the other transducer proteins of Escherichia coli.

Transducers are transmembrane proteins that are central to the chemotactic system of Escherichia coli. The proteins transduce ligand recognition into an excitatory signal and function in adaptation as methyl-accepting proteins. The transducer genes tsr, tar, and tap have extensive homology with each other. However, previous studies revealed little indication of homology between those three transducer genes and a fourth gene, trg. We investigated the relationship between trg and the other genes by blot-hybridization experiments and the relationship between Trg and the other transducer proteins by immune precipitation and experiments with an antiserum raised to purified Trg protein. In experiments in which 35% mismatch would be tolerated, weak hybridization of trg was detected to a DNA fragment containing tar and tap but not to a fragment containing tsr. In experiments in which only 30% mismatch would be tolerated, no trg hybridization was apparent either to total chromosomal DNA or to DNA from hybrid plasmids carrying the other transducer genes. An anti-Trg serum formed immune precipitates with the Tsr and Tar proteins as well as with the Trg protein to which it was raised. We conclude that there is homology between Trg and the other transducer, but the homology is more limited than that shared among the other transducers. Furthermore, we found no indication of additional transducer genes closely related to trg. Thus, the trg gene is a somewhat distant cousin within a single transducer gene family of E. coli.