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Donor strand complementation and calcium ion coordination drive the chaperone-free polymerization of archaeal cannulae

Author

Listed:
  • Mike Sleutel

    (Vrije Universiteit Brussel
    VIB-VUB Center for Structural Biology)

  • Ravi R. Sonani

    (University of Virginia)

  • Jessalyn G. Miller

    (Emory University
    New York Structural Biology Center)

  • Fengbin Wang

    (University of Virginia
    University of Alabama at Birmingham)

  • Andres Gonzalez Socorro

    (Emory University)

  • Yang Chen

    (New York Structural Biology Center)

  • Reece Martin

    (University of Lethbridge)

  • Borries Demeler

    (University of Lethbridge)

  • Michael J. Rudolph

    (New York Structural Biology Center)

  • Vikram Alva

    (Max Planck Institute for Biology Tübingen)

  • Han Remaut

    (Vrije Universiteit Brussel
    VIB-VUB Center for Structural Biology)

  • Edward H. Egelman

    (University of Virginia)

  • Vincent P. Conticello

    (Emory University
    Emory University)

Abstract

Cannulae are structurally rigid tubular protein filaments that accumulate on the extracellular surface of archaea within the family Pyrodictiaceae during cell growth. These obligate anaerobes propagate under hyperthermophilic conditions in which cannulae form a biomatrix that interconnects and sustains cells. The persistence of cannulae in this environment suggests that these filaments display significant thermostability, which has attracted technological interest in their development as synthetic protein-based biomaterials. Here, we report cryoEM structural analyses of ex vivo and in vitro assembled recombinant cannulae. We demonstrate that the interactions between protomers in native and recombinant cannulae is based on donor strand complementation (DSC), a form of non-covalent polymerization previously observed for bacterial chaperone-usher pili. Unexpectedly, calcium ion coordination at the subunit interfaces reinforces the network of donor strand interactions in the cannulae. This study provides insight into the mechanism of assembly of cannulae and the structural origin of their high stability and rigidity.

Suggested Citation

  • Mike Sleutel & Ravi R. Sonani & Jessalyn G. Miller & Fengbin Wang & Andres Gonzalez Socorro & Yang Chen & Reece Martin & Borries Demeler & Michael J. Rudolph & Vikram Alva & Han Remaut & Edward H. Ege, 2025. "Donor strand complementation and calcium ion coordination drive the chaperone-free polymerization of archaeal cannulae," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-64120-8
    DOI: 10.1038/s41467-025-64120-8
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