Author: Bhattacharjee, Sayan; Bhattacharyya, Rajanya; Sengupta, Jayati
Title: Dynamics and electrostatics define an allosteric druggable site within the receptorâ€binding domain of SARSâ€CoVâ€2 spike protein Cord-id: 6ulg389s Document date: 2021_1_31
ID: 6ulg389s
Snippet: The pathogenesis of the SARSâ€CoVâ€2 virus initiates through recognition of the angiotensinâ€converting enzyme 2 (ACE2) receptor of the host cells by the receptorâ€binding domain (RBD) located at the spikes of the virus. Here, using molecular dynamics simulations, we have demonstrated the allosteric crosstalk within the RBD in the apo†and the ACE2 receptorâ€bound states, revealing the contribution of the dynamicsâ€based correlated motions and the electrostatic energy perturbations to th
Document: The pathogenesis of the SARSâ€CoVâ€2 virus initiates through recognition of the angiotensinâ€converting enzyme 2 (ACE2) receptor of the host cells by the receptorâ€binding domain (RBD) located at the spikes of the virus. Here, using molecular dynamics simulations, we have demonstrated the allosteric crosstalk within the RBD in the apo†and the ACE2 receptorâ€bound states, revealing the contribution of the dynamicsâ€based correlated motions and the electrostatic energy perturbations to this crosstalk. While allostery, based on correlated motions, dominates inherent distal communication in the apoâ€RBD, the electrostatic energy perturbations determine favorable pairwise crosstalk within the RBD residues upon binding to ACE2. Interestingly, the allosteric path is composed of residues which are evolutionarily conserved within closely related coronaviruses, pointing toward the biological relevance of the communication and its potential as a target for drug development.
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