Omicron Binding Mode: Contact Analysis and Dynamics of the Omicron Receptor-Binding Domain in Complex with ACE2

Fazekas, Zsolt and K. Menyhárd, Dóra and Perczel, András (2022) Omicron Binding Mode: Contact Analysis and Dynamics of the Omicron Receptor-Binding Domain in Complex with ACE2. JOURNAL OF CHEMICAL INFORMATION AND MODELING, 62. pp. 3844-3853. ISSN 1549-9596

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Abstract

On 26 November 2021, the WHO classified the Omicron variant of the SARS-CoV-2 virus (B.1.1.529 lineage) as a variant of concern (VOC) (COVID-19 Variant Data, Department of Health, 2022). The Omicron variant contains as many as 26 unique mutations of effects not yet determined (Venkatakrishnan, A., Open Science Framework, 2021). Out of its total of 34 Spike protein mutations, 15 are located on the receptor-binding domain (S-RBD) (Stanford Coronavirus Antiviral & Resistance Database, 2022) that directly contacts the angiotensin-converting enzyme 2 (ACE2)host receptor and is also a primary target for antibodies. Here, we studied the binding mode of the S-RBD domain of the Spike protein carrying the Omicron mutations and the globular domain of human ACE2 using molecular dynamics (MD) simulations. We identified new and key Omicron-specific interactions such as R493 (of mutation Q493R), which forms salt bridges both with E35 and D38 of ACE2, Y501 (N501Y), which forms an edge-to-face aromatic interaction with Y41, and Y505 (Y505H), which makes an H-bond with E37 and K353. The glycan chains of ACE2 also bind differently in the WT and Omicron variants in response to different charge distributions on the surface of Spike proteins. However, while the Omicron mutations considerably improve the overall electrostatic fit of the two interfaces, the total number of specific and favorable interactions between the two does not increase. The dynamics of the complexes are highly affected too, making the Omicron S-RBD:ACE2 complex more rigid; the two main interaction sites, Patches I and II, isolated in the WT complex, become connected in the Omicron complex through the alternating interaction of R493 and R498 with E35 and D38

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