Binding Interactions between RBD of Spike-Protein and Human ACE2 in Omicron variant

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Abstract

Emergence of new SARS-CoV-2 Omicron VOC (OV) has exacerbated the COVID-19 pandemic due to a large number of mutations in the spike-protein, particularly in the receptor-binding domain (RBD), resulting in highly contagious and/or vaccine-resistant strain. Herein, we present a systematic analysis based on detailed molecular dynamics (MD) simulations in order to understand how the OV RBD mutations affect the ACE2 binding. We show that the OV RBD binds to ACE2 more efficiently and tightly due predominantly to strong electrostatic interactions, thereby promoting increased infectivity and transmissibility compared to other strains. Some of OV RBD mutations are predicted to affect the antibody neutralization either through their role in the S-protein conformational changes, such as S371L, S373P, and S375F, or through changing its surface charge distribution, such as G339D, N440K, T478K, and E484A. Other mutations, such as K417N, G446S, and Y505H, decrease the ACE2 binding, whereas S447N, Q493R, G496S, Q498R, and N501Y tend to increase it.

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