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Nuclear magnetic resonance structure and dynamics of the response regulator Sma0114 from Sinorhizobium meliloti.


ABSTRACT: Receiver domains control intracellular responses triggered by signal transduction in bacterial two-component systems. Here, we report the solution nuclear magnetic resonance structure and dynamics of Sma0114 from the bacterium Sinorhizobium meliloti, the first such characterization of a receiver domain from the HWE-kinase family of two-component systems. The structure of Sma0114 adopts a prototypical ?(5)/?(5) Rossman fold but has features that set it apart from other receiver domains. The fourth ?-strand of Sma0114 houses a PFxFATGY sequence motif, common to many HWE-kinase-associated receiver domains. This sequence motif in Sma0114 may substitute for the conserved Y-T coupling mechanism, which propagates conformational transitions in the 455 (?4-?5-?5) faces of receiver domains, to prime them for binding downstream effectors once they become activated by phosphorylation. In addition, the fourth ?-helix of the consensus 455 face in Sma0114 is replaced with a segment that shows high flexibility on the pico- to nanosecond time scale by (15)N relaxation data. Secondary structure prediction analysis suggests that the absence of helix ?4 may be a conserved property of the HWE-kinase-associated family of receiver domains to which Sma0114 belongs. In spite of these differences, Sma0114 has a conserved active site, binds divalent metal ions such as Mg(2+) and Ca(2+) that are required for phosphorylation, and exhibits micro- to millisecond active-site dynamics similar to those of other receiver domains. Taken together, our results suggest that Sma0114 has a conserved active site but differs from typical receiver domains in the structure of the 455 face that is used to effect signal transduction following activation.

SUBMITTER: Sheftic SR 

PROVIDER: S-EPMC4346371 | biostudies-literature | 2012 Sep

REPOSITORIES: biostudies-literature

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Nuclear magnetic resonance structure and dynamics of the response regulator Sma0114 from Sinorhizobium meliloti.

Sheftic Sarah R SR   Garcia Preston P PP   White Emma E   Robinson Victoria L VL   Gage Daniel J DJ   Alexandrescu Andrei T AT  

Biochemistry 20120821 35


Receiver domains control intracellular responses triggered by signal transduction in bacterial two-component systems. Here, we report the solution nuclear magnetic resonance structure and dynamics of Sma0114 from the bacterium Sinorhizobium meliloti, the first such characterization of a receiver domain from the HWE-kinase family of two-component systems. The structure of Sma0114 adopts a prototypical α(5)/β(5) Rossman fold but has features that set it apart from other receiver domains. The fourt  ...[more]

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