Transducers are transmembrane receptor proteins that generate intracellular signals on stimulation and participate in adaptation by appropriate changes in the level of methylation. The transducer mutation trg-21 conferred a Trg- phenotype and defective taxis to galactose and ribose but a normal response to other attractants when present in a single chromosomal copy. Amplification of trg-21 by a multicopy plasmid made host cells generally nonchemotactic. The dominant phenotype resulted from a strong counterclockwise rotational bias of flagellar motors in Che- cells. Apparently, the Trg21 transducer sends a continuous counterclockwise signal to flagella independent of tactic stimulation. It appears that the cell has a homeostatic capacity that is sufficient to compensate for the effect of mutant transducers produced from a single chromosomal copy of trg-21, but the capacity is exceeded in cells that have multiple copies of the gene. The Trg21 protein did not have a significant effect on methylesterase activity, indicating that the two global effects of a stimulated transducer, that is, on flagellar rotation and on modification enzymes, can occur independently. The mutant protein exhibited essentially normal turnover of methyl groups but had a drastic defect in deamidation which thus reduced the number of methyl-accepting sites. The trg-21 mutation substitutes a threonine for Ala-419. This alanine is a conserved residue in all sequenced transducers and is in a region of the carboxy-terminal domain in which homology among the transducers is very high. The Trg21 phenotype implicates this conserved region in the generation of the excitatory signal which is directed at the flagella.