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Conformational change and protein–protein interactions of the fusion protein of Semliki Forest virus

Author

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  • Don L. Gibbons

    (Virologie Moléculaire & Structurale, UMR 2472/1157 CNRS-INRA
    Albert Einstein College of Medicine)

  • Marie-Christine Vaney

    (Virologie Moléculaire & Structurale, UMR 2472/1157 CNRS-INRA)

  • Alain Roussel

    (Virologie Moléculaire & Structurale, UMR 2472/1157 CNRS-INRA
    AFMB, CNRS UMR 6098)

  • Armelle Vigouroux

    (Virologie Moléculaire & Structurale, UMR 2472/1157 CNRS-INRA)

  • Brigid Reilly

    (Albert Einstein College of Medicine)

  • Jean Lepault

    (Virologie Moléculaire & Structurale, UMR 2472/1157 CNRS-INRA)

  • Margaret Kielian

    (Albert Einstein College of Medicine)

  • Félix A. Rey

    (Virologie Moléculaire & Structurale, UMR 2472/1157 CNRS-INRA)

Abstract

Fusion of biological membranes is mediated by specific lipid-interacting proteins that induce the formation and expansion of an initial fusion pore. Here we report the crystal structure of the ectodomain of the Semliki Forest virus fusion glycoprotein E1 in its low-pH-induced trimeric form. E1 adopts a folded-back conformation that, in the final post-fusion form of the full-length protein, would bring the fusion peptide loop and the transmembrane anchor to the same end of a stable protein rod. The observed conformation of the fusion peptide loop is compatible with interactions only with the outer leaflet of the lipid bilayer. Crystal contacts between fusion peptide loops of adjacent E1 trimers, together with electron microscopy observations, suggest that in an early step of membrane fusion, an intermediate assembly of five trimers creates two opposing nipple-like deformations in the viral and target membranes, leading to formation of the fusion pore.

Suggested Citation

  • Don L. Gibbons & Marie-Christine Vaney & Alain Roussel & Armelle Vigouroux & Brigid Reilly & Jean Lepault & Margaret Kielian & Félix A. Rey, 2004. "Conformational change and protein–protein interactions of the fusion protein of Semliki Forest virus," Nature, Nature, vol. 427(6972), pages 320-325, January.
    • Handle: RePEc:nat:nature:v:427:y:2004:i:6972:d:10.1038_nature02239
    DOI: 10.1038/nature02239
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    Cited by:

    1. Vidya Mangala Prasad & Jelle S. Blijleven & Jolanda M. Smit & Kelly K. Lee, 2022. "Visualization of conformational changes and membrane remodeling leading to genome delivery by viral class-II fusion machinery," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    2. David Moi & Shunsuke Nishio & Xiaohui Li & Clari Valansi & Mauricio Langleib & Nicolas G. Brukman & Kateryna Flyak & Christophe Dessimoz & Daniele de Sanctis & Kathryn Tunyasuvunakool & John Jumper & , 2022. "Discovery of archaeal fusexins homologous to eukaryotic HAP2/GCS1 gamete fusion proteins," Nature Communications, Nature, vol. 13(1), pages 1-18, December.

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