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Abstract
The main protease, Mpro/3CLpro, plays an essential role in processing polyproteins translated from viral RNA to produce functional viral proteins and therefore serve as an attractive target for discovering COVID-19 therapeutics. The availability of both monomer and dimer crystal bound with a common ligand, ‘13b’ (α-ketoamide inhibitor), opened up opportunities to understand the Mpro mechanism of action. A comparative analysis of both forms of Mpro was carried out to elucidate the binding site architectural differences in the presence and absence of ‘13b’. Molecular dynamics simulations suggest that the presence of ‘13b’ enhances the stability of Mpro than the unbound APO form. The N- and C- terminals of both the protomers stabilize each other, and making it's interface essential for the active form of Mpro. In comparison to monomer, the relatively high affinity of ‘13b’ is gained in dimer pocket due to the high stability of the pocket by the interaction of S1 residue of chain B with residues F140, E166 and H172 of chain A, which is absent in monomer. The comprehensive essential dynamics, protein structure network analysis and thermodynamic profiling highlight the hot-spots, pivotal in molecular recognition process at protein-ligand and protein-protein interaction levels, cross-validated through computational alanine scanning study. A comparative description of ‘13b’ binding mechanism in both forms illustrates valuable insights into the inhibition mechanism and the selection of critical residues suitable for the structure-based approaches for the identification of more potent Mpro inhibitors.
Communicated by Ramaswamy H. Sarma
Acknowledgements
The work has been supported by the THSTI. The authors acknowledge the anonymous reviewers for their valuable suggestions and comments that have improved the content and presentation of the manuscript.
Disclosure statement
The authors declare that they do not have conflict of interest.
Author’s contribution
S. Asthana proposed and designed the study. A. Kumari, L. Mittal, and M. Srivastava performed experiments and analysis of results. L. Mittal, A. Kumari, M. Srivastava and S. Asthana wrote the manuscript. All the authors have read the manuscript.