SummaryChemoreceptors transmit signals from the environment to the flagellar motors via a histidine kinase that controls the phosphorylation level of the effector protein CheY. The cytoplasmic domain of chemoreceptors is strongly conserved and consists of a long alpha-helical hairpin that forms, in the dimer, a coiledcoil four-helix bundle. Changes in this domain during evolution are characterized by the presence of sevenresidue insertions/deletions located symmetrically with respect to the hairpin turn, suggesting that specific interactions between the helices that form the hairpin are required for function. We assessed the impact of seven-residue deletions on the signalling ability and higher-order organization of the serine chemoreceptor from Escherichia coli. Our results indicate that symmetry alterations between the two branches of the cytoplasmic hairpin seriously compromise chemoreceptor function. Shorter functional versions of Tsr with symmetrical deletions form mixed trimers of dimers when coexpressed with Tar, the aspartate receptor of E. coli. However, Tar function in those cells is impaired, suggesting that the length difference between receptors introduces nonfunctional distortions into the chemoreceptor cluster. This observation is reinforced by the analysis of coexpression of Tar with chemoreceptors from Rhodobacter sphaeroides that naturally belong to a shorter-length class.
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