Modeling of the Thermal Properties of SARS-CoV-2 S-protein

Overview

Journal Front Mol Biosci

Specialty Biology

Date 2022 Oct 14

PMID 36237574

Authors

Ziyuan Niu

Karin Hasegawa

Yuefan Deng

Ziji Zhang

Miriam Rafailovich

Marcia Simon

Peng Zhang

Affiliations

Soon will be listed here.

Abstract

We calculate the thermal and conformational states of the spike glycoprotein (S-protein) of SARS-CoV-2 at seven temperatures ranging from 3°C to 95°C by all-atom molecular dynamics (MD) µs-scale simulations with the objectives to understand the structural variations on the temperatures and to determine the potential phase transition while trying to correlate such findings of the S-protein with the observed properties of the SARS-CoV2. Our simulations revealed the following thermal properties of the S-protein: 1) It is structurally stable at 3°C, agreeing with observations that the virus stays active for more than two weeks in the cold supply chain; 2) Its structure varies more significantly at temperature values of 60°C-80°C; 3) The sharpest structural variations occur near 60°C, signaling a plausible critical temperature nearby; 4) The maximum deviation of the receptor-binding domain at 37°C, corroborating the anecdotal observations that the virus is most infective at 37°C; 5) The in silico data agree with reported experiments of the SARS-CoV-2 survival times from weeks to seconds by our clustering approach analysis. Our MD simulations at µs scales demonstrated the S-protein's thermodynamics of the critical states at around 60°C, and the stable and denatured states for temperatures below and above this value, respectively.

Citing Articles

Simulations of pH and thermal effects on SARS-CoV-2 spike glycoprotein.

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Exploring the Thermostability of CRISPR-Cas12b using Molecular Dynamics Simulations.

Jia Y, Horvath K, Rananaware S, Jain P, Sampath J ArXiv. 2024; .

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