Issue 31, 2020
From the journal:

Nanoscale

Quantitative determination of mechanical stability in the novel coronavirus spike protein

Rodrigo A. Moreira, ORCID logo *a   Mateusz Chwastyk, ORCID logo b   Joseph L. Baker, ORCID logo c   Horacio V. Guzman ORCID logo d  and  Adolfo B. Poma ORCID logo *a  

* Corresponding authors

a Biosystems and Soft Matter divison, Institute of Fundamental Technological Research, Polish Academy of Sciences, Pawińskiego 5B, 02-106 Warsaw, Poland
E-mail: rams@ippt.pan.pl, apoma@ippt.pan.pl

b Institute of Physics, Polish Academy of Sciences, al. Lotników 32/46, 02-668 Warsaw, Poland

c Department of Chemistry, The College of New Jersey, 2000 Pennington Road, Ewing, NJ 08628, USA

d Department of Theoretical Physics, Jožef Stefan Institute, Jamova 39, 1000 Ljubljana, Slovenia

Abstract

We report on the novel observation about the gain in nanomechanical stability of the SARS-CoV-2 (CoV2) spike (S) protein in comparison with SARS-CoV from 2002 (CoV1). Our findings have several biological implications in the subfamily of coronaviruses, as they suggest that the receptor binding domain (RBD) (∼200 amino acids) plays a fundamental role as a damping element of the massive viral particle's motion prior to cell-recognition, while also facilitating viral attachment, fusion and entry. The mechanical stability via pulling of the RBD is 250 pN and 200 pN for CoV2 and CoV1 respectively, and the additional stability observed for CoV2 (∼50 pN) might play a role in the increasing spread of COVID-19.

Graphical abstract: Quantitative determination of mechanical stability in the novel coronavirus spike protein

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Article information

DOI
https://doi.org/10.1039/D0NR03969A
Article type
Communication
Submitted
23 máj 2020
Accepted
22 júl 2020
First published
23 júl 2020

Nanoscale, 2020,12, 16409-16413

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Quantitative determination of mechanical stability in the novel coronavirus spike protein

R. A. Moreira, M. Chwastyk, J. L. Baker, H. V. Guzman and A. B. Poma, Nanoscale, 2020, 12, 16409 DOI: 10.1039/D0NR03969A

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