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Mutational analysis of the linker region of EnvZ, an osmosensor in Escherichia coli.
Authors:H Park and M Inouye
Abstract:EnvZ, a transmembrane signal transducer, is composed of a periplasmic sensor domain, transmembrane domains, and a cytoplasmic signaling domain. Between the second transmembrane domain and the cytoplasmic signaling domain there is a linker domain consisting of approximately 50 residues. In this study, we investigated the functional role of the EnvZ linker domain with respect to signal transduction. Amino acid sequence alignment of linker regions among various bacterial signal transducer proteins does not show a high sequence identity but suggests a common helix 1-loop-helix 2 structure. Among several mutations introduced in the EnvZ linker region, it was found that hydrophobic-to-charged amino acid substitutions in helix 1 and helix 2 and deletions in helix 1, loop, and helix 2 (delta14, delta8, and delta7) resulted in constitutive OmpC expression. In the linker mutant EnvZ x delta7, both kinase and phosphatase activities were significantly reduced but the ratio of kinase to phosphatase activity increased, consistent with the constitutive OmpC expression. In contrast, the purified cytoplasmic fragment of EnvZ x delta7 possessed both kinase and phosphatase activities at levels similar to those of the cytoplasmic fragment of wild-type EnvZ. In addition, the linker mutations had no direct effect on EnvZ C-terminal dimerization. These results together with previous data suggest that the linker region is not directly involved in EnvZ enzymatic activities and that it may have a crucial role in propagating a conformational change to ensure correct positioning of two EnvZ molecules within a dimer during the transmembrane signaling.
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