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Membrane reshaping by micrometric curvature sensitive septin filaments

Author

Listed:
  • Alexandre Beber

    (CNRS UMR168
    Sorbonne Université)

  • Cyntia Taveneau

    (CNRS UMR168
    Sorbonne Université)

  • Manuela Nania

    (Imperial College London)

  • Feng-Ching Tsai

    (CNRS UMR168
    Sorbonne Université)

  • Aurelie Cicco

    (CNRS UMR168
    Sorbonne Université)

  • Patricia Bassereau

    (CNRS UMR168
    Sorbonne Université)

  • Daniel Lévy

    (CNRS UMR168
    Sorbonne Université)

  • João T. Cabral

    (Imperial College London)

  • Hervé Isambert

    (CNRS UMR168
    Sorbonne Université)

  • Stéphanie Mangenot

    (CNRS UMR168
    Sorbonne Université)

  • Aurélie Bertin

    (CNRS UMR168
    Sorbonne Université)

Abstract

Septins are cytoskeletal filaments that assemble at the inner face of the plasma membrane. They are localized at constriction sites and impact membrane remodeling. We report in vitro tools to examine how yeast septins behave on curved and deformable membranes. Septins reshape the membranes of Giant Unilamellar Vesicles with the formation of periodic spikes, while flattening smaller vesicles. We show that membrane deformations are associated to preferential arrangement of septin filaments on specific curvatures. When binding to bilayers supported on custom-designed periodic wavy patterns displaying positive and negative micrometric radii of curvatures, septin filaments remain straight and perpendicular to the curvature of the convex parts, while bending negatively to follow concave geometries. Based on these results, we propose a theoretical model that describes the deformations and micrometric curvature sensitivity observed in vitro. The model captures the reorganizations of septin filaments throughout cytokinesis in vivo, providing mechanistic insights into cell division.

Suggested Citation

  • Alexandre Beber & Cyntia Taveneau & Manuela Nania & Feng-Ching Tsai & Aurelie Cicco & Patricia Bassereau & Daniel Lévy & João T. Cabral & Hervé Isambert & Stéphanie Mangenot & Aurélie Bertin, 2019. "Membrane reshaping by micrometric curvature sensitive septin filaments," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-08344-5
    DOI: 10.1038/s41467-019-08344-5
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    Cited by:

    1. Maritzaida Varela Salgado & Ingrid E. Adriaans & Sandra A. Touati & Sandy Ibanes & Joséphine Lai-Kee-Him & Aurélie Ancelin & Luca Cipelletti & Laura Picas & Simonetta Piatti, 2024. "Phosphorylation of the F-BAR protein Hof1 drives septin ring splitting in budding yeast," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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