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J Mol Biol. 1999 Jun 25;289(5):1423-33.

Identification of the binding interfaces on CheY for two of its targets, the phosphatase CheZ and the flagellar switch protein fliM.

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1
Institute of Molecular Biology, University of Oregon, Eugene, OR, 97403, USA.

Abstract

CheY is the response regulator protein serving as a phosphorylation-dependent switch in the bacterial chemotaxis signal transduction pathway. CheY has a number of proteins with which it interacts during the course of the signal transduction pathway. In the phosphorylated state, it interacts strongly with the phosphatase CheZ, and also the components of the flagellar motor switch complex, specifically with FliM. Previous work has characterized peptides consisting of small regions of CheZ and FliM which interact specifically with CheY. We have quantitatively measured the binding of these peptides to both unphosphorylated and phosphorylated CheY using fluorescence spectroscopy. There is a significant enhancement of the binding of these peptides to the phosphorylated form of CheY, suggesting that these peptides share much of the binding specificity of the intact targets of the phosphorylated form of CheY. We also have used modern nuclear magnetic resonance methods to characterize the sites of interaction of these peptides on CheY. We have found that the binding sites are overlapping and primarily consist of residues in the C-terminal portion of CheY. Both peptides affect the resonances of residues at the active site, indicating that the peptides may either bind directly at the active site or exert conformational influences that reach to the active site. The binding sites for the CheZ and FliM peptides also overlap with the previously characterized CheA binding interface. These results suggest that interaction with these three proteins of the signal transduction pathway are mutually exclusive. In addition, since these three proteins are sensitive to the phosphorylation state of CheY, it may be that the C-terminal region of CheY is most sensitive for the conformational changes occurring upon phosphorylation.

PMID:
10373376
DOI:
10.1006/jmbi.1999.2830
[Indexed for MEDLINE]

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