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Jul 17, 2024;16 (7):

Impact of Missense Mutations on Spike Protein Stability and Binding Affinity in the Omicron Variant.

Vidhyanand Mahase, Adebiyi Sobitan, Qiaobin Yao, Xinghua Shi, Hong Qin, Dawit Kidane, Qiyi Tang, Shaolei Teng
Author Information
  1. Vidhyanand Mahase: Department of Biology, Howard University, Washington, DC 20059, USA.
  2. Adebiyi Sobitan: Department of Biology, Howard University, Washington, DC 20059, USA.
  3. Qiaobin Yao: Department of Biology, Howard University, Washington, DC 20059, USA.
  4. Xinghua Shi: Department of Computer & Information Sciences, Temple University, Philadelphia, PA 19122, USA.
  5. Hong Qin: Department of Computer Science and Engineering, University of Tennessee at Chattanooga, Chattanooga, TN 37403, USA. ORCID
  6. Dawit Kidane: Department of Physiology and Biophysics, Howard University College of Medicine, Washington, DC 20059, USA.
  7. Qiyi Tang: Department of Microbiology, Howard University College of Medicine, Washington, DC 20059, USA. ORCID
  8. Shaolei Teng: Department of Biology, Howard University, Washington, DC 20059, USA.
PMID: 39066312 DOI: 10.3390/v16071150

Abstract

The global effort to combat the COVID-19 pandemic faces ongoing uncertainty with the emergence of Variants of Concern featuring numerous mutations on the Spike (S) protein. In particular, the Omicron Variant is distinguished by 32 mutations, including 10 within its receptor-binding domain (RBD). These mutations significantly impact viral infectivity and the efficacy of vaccines and antibodies currently in use for therapeutic purposes. In our study, we employed structure-based computational saturation mutagenesis approaches to predict the effects of Omicron missense mutations on RBD stability and binding affinity, comparing them to the original Wuhan-Hu-1 strain. Our results predict that mutations such as G431W and P507W induce the most substantial destabilizations in the Wuhan-Hu-1-S/Omicron-S RBD. Notably, we postulate that mutations in the Omicron-S exhibit a higher percentage of enhancing binding affinity compared to Wuhan-S. We found that the mutations at residue positions G447, Y449, F456, F486, and S496 led to significant changes in binding affinity. In summary, our findings may shed light on the widespread prevalence of Omicron mutations in human populations. The Omicron mutations that potentially enhance their affinity for human receptors may facilitate increased viral binding and internalization in infected cells, thereby enhancing infectivity. This informs the development of new neutralizing antibodies capable of targeting Omicron's immune-evading mutations, potentially aiding in the ongoing battle against the COVID-19 pandemic.

Keywords

COVID-19 Omicron Variant SARS-CoV-2 Spike protein computational saturation mutagenesis

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Grants

  1. DBI 2000296, IIS 1924092, and HRD 2011933/National Science Foundation
  2. 2U54MD007597/National Institute on Minority Health and Health Disparities of the National Institutes of Health
  3. 2200138/National Science Foundation

MeSH Term

Spike Glycoprotein, Coronavirus
SARS-CoV-2
Humans
Mutation, Missense
Protein Binding
COVID-19
Protein Stability
Antibodies, Neutralizing
Binding Sites
Antibodies, Viral

Chemicals

Spike Glycoprotein, Coronavirus
spike protein, SARS-CoV-2
Antibodies, Neutralizing
Antibodies, Viral
Journal Article

Word Cloud

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