PLoS Biology (Oct 2014)

Cell fate regulation governed by a repurposed bacterial histidine kinase.

  • W Seth Childers,
  • Qingping Xu,
  • Thomas H Mann,
  • Irimpan I Mathews,
  • Jimmy A Blair,
  • Ashley M Deacon,
  • Lucy Shapiro

DOI
https://doi.org/10.1371/journal.pbio.1001979
Journal volume & issue
Vol. 12, no. 10
p. e1001979

Abstract

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One of the simplest organisms to divide asymmetrically is the bacterium Caulobacter crescentus. The DivL pseudo-histidine kinase, positioned at one cell pole, regulates cell-fate by controlling the activation of the global transcription factor CtrA via an interaction with the response regulator (RR) DivK. DivL uniquely contains a tyrosine at the histidine phosphorylation site, and can achieve these regulatory functions in vivo without kinase activity. Determination of the DivL crystal structure and biochemical analysis of wild-type and site-specific DivL mutants revealed that the DivL PAS domains regulate binding specificity for DivK∼P over DivK, which is modulated by an allosteric intramolecular interaction between adjacent domains. We discovered that DivL's catalytic domains have been repurposed as a phosphospecific RR input sensor, thereby reversing the flow of information observed in conventional histidine kinase (HK)-RR systems and coupling a complex network of signaling proteins for cell-fate regulation.