4.5 Article

Structural and Dynamical Differences in the Spike Protein RBD in the SARS-CoV-2 Variants B.1.1.7 and B.1.351

期刊

JOURNAL OF PHYSICAL CHEMISTRY B
卷 125, 期 26, 页码 7101-7107

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcb.1c01626

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资金

  1. National Science Foundation [2037374]
  2. University Graduate School at Florida International University
  3. Direct For Computer & Info Scie & Enginr
  4. Division Of Computer and Network Systems [2037374] Funding Source: National Science Foundation

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The ongoing novel coronavirus pandemic has led to new variants like B.1.1.7 and B.1.351, which show increased transmissibility and infectivity. Molecular dynamics simulations revealed rearranged hydrogen bond networks and new bonds between the virus spike protein RBD and host receptor ACE2 due to mutations. The B.1.351 variant exhibited higher flexibility in the RBD loop segment, but the RBD-ACE2 complex showed greater stability, which could contribute to increased infectivity of the mutated variants.
The novel coronavirus (SARS-CoV-2) pandemic that started in late 2019 is responsible for hundreds of millions of cases worldwide and millions of fatalities. Though vaccines are available, the virus is mutating to form new strains among which are the variants B.1.1.7 and B.1.351 that demonstrate increased transmissivity and infectivity. In this study, we performed molecular dynamics simulations to explore the role of the mutations in the interaction of the virus spike protein receptor binding domain (RBD) with the host receptor ACE2. We find that the hydrogen bond networks are rearranged in the variants and also that new hydrogen bonds are established between the RBD and ACE2 as a result of mutations. We investigated three variants: the wild-type (WT), B.1.1.7, and B.1.351. We find that the B.1.351 variant (also known as 501Y.V2) shows larger flexibility in the RBD loop segment involving residue K484, yet the RBD-ACE2 complex shows higher stability. Mutations that allow a more flexible interface that can result in a more stable complex may be a factor contributing to the increased infectivity of the mutated variants.

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