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Regulation of response regulator autophosphorylation through interdomain contacts. | LitMetric

AI Article Synopsis

  • DNA-binding response regulators (RRs) from the OmpR/PhoB subfamily switch between inactive and active forms, with the active form being better at binding DNA, primarily due to phosphorylation of an aspartate residue.
  • The structural analysis of these proteins shows that the inactive forms have extensive interactions between their receiver and DNA-binding domains, which affect their ability to dimerize and transition to the active state.
  • Differences in phosphorylation rates indicate that the presence of these domain interfaces slows down phosphorylation when using small molecule donors, providing insights into why some RRs cannot be phosphorylated by these donors in laboratory settings.

Article Abstract

DNA-binding response regulators (RRs) of the OmpR/PhoB subfamily alternate between inactive and active conformational states, with the latter having enhanced DNA-binding affinity. Phosphorylation of an aspartate residue in the receiver domain, usually via phosphotransfer from a cognate histidine kinase, stabilizes the active conformation. Many of the available structures of inactive OmpR/PhoB family proteins exhibit extensive interfaces between the N-terminal receiver and C-terminal DNA-binding domains. These interfaces invariably involve the α4-β5-α5 face of the receiver domain, the locus of the largest differences between inactive and active conformations and the surface that mediates dimerization of receiver domains in the active state. Structures of receiver domain dimers of DrrB, DrrD, and MtrA have been determined, and phosphorylation kinetics were analyzed. Analysis of phosphotransfer from small molecule phosphodonors has revealed large differences in autophosphorylation rates among OmpR/PhoB RRs. RRs with substantial domain interfaces exhibit slow rates of phosphorylation. Rates are greatly increased in isolated receiver domain constructs. Such differences are not observed between autophosphorylation rates of full-length and isolated receiver domains of a RR that lacks interdomain interfaces, and they are not observed in histidine kinase-mediated phosphotransfer. These findings suggest that domain interfaces restrict receiver domain conformational dynamics, stabilizing an inactive conformation that is catalytically incompetent for phosphotransfer from small molecule phosphodonors. Inhibition of phosphotransfer by domain interfaces provides an explanation for the observation that some RRs cannot be phosphorylated by small molecule phosphodonors in vitro and provides a potential mechanism for insulating some RRs from small molecule-mediated phosphorylation in vivo.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2952233PMC
http://dx.doi.org/10.1074/jbc.M110.157164DOI Listing

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