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  • Identification of a pH-Sensitive Switch in VSV-G and a Crystal Structure of the G Pre-fusion State Highlight the VSV-G Structural Transition Pathway.

Identification of a pH-Sensitive Switch in VSV-G and a Crystal Structure of the G Pre-fusion State Highlight the VSV-G Structural Transition Pathway.

Cell reports (2020-08-20)
Frauke Beilstein, Abbas Abou Hamdan, Hélène Raux, Laura Belot, Malika Ouldali, Aurélie A Albertini, Yves Gaudin
ANOTACE

VSV fusion machinery, like that of many other enveloped viruses, is triggered at low pH in endosomes after virion endocytosis. It was suggested that some histidines could play the role of pH-sensitive switches. By mutating histidine residues H22, H60, H132, H162, H389, H397, H407, and H409, we demonstrate that residues H389 and D280, facing each other in the six-helix bundle of the post-fusion state, and more prominently H407, located at the interface between the C-terminal part of the ectodomain and the fusion domain, are crucial for fusion. Passages of recombinant viruses bearing mutant G resulted in the selection of compensatory mutations. Thus, the H407A mutation in G resulted in two independent compensatory mutants, L396I and S422I. Together with a crystal structure of G, presented here, which extends our knowledge of G pre-fusion structure, this indicates that the conformational transition is initiated by refolding of the C-terminal part of the G ectodomain.

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Sigma-Aldrich
Atto 550 maleimide, BioReagent, suitable for fluorescence, ≥90.0% (degree of coupling)
Sigma-Aldrich
Monoclonal Anti-VSV Glycoprotein antibody produced in mouse, clone P5D4, ascites fluid