Author: Mansbach, Rachael A.; Chakraborty, Srirupa; Nguyen, Kien; Montefiori, David C.; Korber, Bette; Gnanakaran, S.
Title: The SARS-CoV-2 Spike variant D614G favors an open conformational state Cord-id: vb49ggms Document date: 2021_4_16
ID: vb49ggms
Snippet: The COVID-19 (coronavirus disease 2019) pandemic underwent a rapid transition with the emergence of a dominant viral variant (from the “D-form†to the “G-formâ€) that carried an amino acid substitution D614G in its “Spike†protein. The G-form is more infectious in vitro and is associated with increased viral loads in the upper airways. To gain insight into the molecular-level underpinnings of these characteristics, we used microsecond all-atom simulations. We show that changes in the
Document: The COVID-19 (coronavirus disease 2019) pandemic underwent a rapid transition with the emergence of a dominant viral variant (from the “D-form†to the “G-formâ€) that carried an amino acid substitution D614G in its “Spike†protein. The G-form is more infectious in vitro and is associated with increased viral loads in the upper airways. To gain insight into the molecular-level underpinnings of these characteristics, we used microsecond all-atom simulations. We show that changes in the protein energetics favor a higher population of infection-capable states in the G-form through release of asymmetry present in the D-form inter-protomer interactions. Thus, the increased infectivity of the G-form is likely due to a higher rate of profitable binding encounters with the host receptor. It is also predicted to be more neutralization sensitive owing to enhanced exposure of the receptor binding domain, a key target region for neutralizing antibodies. These results are critical for vaccine design.
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