Abstract

Myxococcus xanthus CorSR is a two-component system responsible for maintaining the response of this bacterium to copper. In the presence of this metal it upregulates, among others, the genes encoding the multicopper oxidase CuoA and the P1B -ATPase CopA. Dissection of the periplasmic sensor domain of the histidine kinase CorS by the analysis of a series of in-frame deletion mutants generated in this portion of the protein has revealed that copper sensing requires a region of 28 residues in the N terminus and another region of nine residues in the C terminus. Point mutations at His34, His38 and His171 demonstrate that they are essential for the ability of CorS to sense copper. Furthermore, the use of a bacterial two-hybrid system has revealed dimerization between monomers of CorS even in the absence of any metal, and that copper enhances this interaction. When dimerization was tested with proteins mutated at the three essential His residues, it was observed that these proteins maintain the intrinsic dimerization ability in the absence of metal. In contrast to the wild-type protein, copper did not strengthen the interaction, corroborating that copper binding to the three His residues of CorS is required for enhancing dimerization and transmitting the signal.

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