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Atypical chemoreceptor arrays accommodate high membrane curvature

Author

Listed:
  • Alise R. Muok

    (Leiden University
    Leiden University)

  • Davi R. Ortega

    (Department of Biology, California Institute of Technology)

  • Kurni Kurniyati

    (Virginia Commonwealth University)

  • Wen Yang

    (Leiden University
    Leiden University)

  • Zachary A. Maschmann

    (Cornell University)

  • Adam Sidi Mabrouk

    (Leiden University
    Leiden University)

  • Chunhao Li

    (Virginia Commonwealth University)

  • Brian R. Crane

    (Cornell University)

  • Ariane Briegel

    (Leiden University
    Leiden University)

Abstract

The prokaryotic chemotaxis system is arguably the best-understood signaling pathway in biology. In all previously described species, chemoreceptors organize into a hexagonal (P6 symmetry) extended array. Here, we report an alternative symmetry (P2) of the chemotaxis apparatus that emerges from a strict linear organization of the histidine kinase CheA in Treponema denticola cells, which possesses arrays with the highest native curvature investigated thus far. Using cryo-ET, we reveal that Td chemoreceptor arrays assume an unusual arrangement of the supra-molecular protein assembly that has likely evolved to accommodate the high membrane curvature. The arrays have several atypical features, such as an extended dimerization domain of CheA and a variant CheW-CheR-like fusion protein that is critical for maintaining an ordered chemosensory apparatus. Furthermore, the previously characterized Td oxygen sensor ODP influences CheA ordering. These results suggest a greater diversity of the chemotaxis signaling system than previously thought.

Suggested Citation

  • Alise R. Muok & Davi R. Ortega & Kurni Kurniyati & Wen Yang & Zachary A. Maschmann & Adam Sidi Mabrouk & Chunhao Li & Brian R. Crane & Ariane Briegel, 2020. "Atypical chemoreceptor arrays accommodate high membrane curvature," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19628-6
    DOI: 10.1038/s41467-020-19628-6
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    Cited by:

    1. David Hathcock & Qiwei Yu & Yuhai Tu, 2024. "Time-reversal symmetry breaking in the chemosensory array reveals a general mechanism for dissipation-enhanced cooperative sensing," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    2. Christoph Buhlheller & Theo Sagmeister & Christoph Grininger & Nina Gubensäk & Uwe B. Sleytr & Isabel Usón & Tea Pavkov-Keller, 2024. "SymProFold: Structural prediction of symmetrical biological assemblies," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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