PLoS Genetics (Dec 2019)

A divergent CheW confers plasticity to nucleoid-associated chemosensory arrays.

  • Annick Guiseppi,
  • Juan Jesus Vicente,
  • Julien Herrou,
  • Deborah Byrne,
  • Aurelie Barneoud,
  • Audrey Moine,
  • Leon Espinosa,
  • Marie-Jeanne Basse,
  • Virginie Molle,
  • Tâm Mignot,
  • Philippe Roche,
  • Emilia M F Mauriello

DOI
https://doi.org/10.1371/journal.pgen.1008533
Journal volume & issue
Vol. 15, no. 12
p. e1008533

Abstract

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Chemosensory systems are highly organized signaling pathways that allow bacteria to adapt to environmental changes. The Frz chemosensory system from M. xanthus possesses two CheW-like proteins, FrzA (the core CheW) and FrzB. We found that FrzB does not interact with FrzE (the cognate CheA) as it lacks the amino acid region responsible for this interaction. FrzB, instead, acts upstream of FrzCD in the regulation of M. xanthus chemotaxis behaviors and activates the Frz pathway by allowing the formation and distribution of multiple chemosensory clusters on the nucleoid. These results, together, show that the lack of the CheA-interacting region in FrzB confers new functions to this small protein.