Litcius/Paper detail

Peplomer bulb shape and coronavirus rotational diffusivity

M. A. Kanso, V. Chaurasia, Eliot Fried, A. Jeffrey Giacomin

2021Physics of Fluids31 citationsDOIOpen Access PDF

Abstract

Recently, the rotational diffusivity of the coronavirus particle in suspension was calculated, from first principles, using general rigid bead-rod theory [M. A. Kanso, Phys. Fluids 32, 113101 (2020)]. We did so by beading the capsid and then also by replacing each of its bulbous spikes with a single bead. However, each coronavirus spike is a glycoprotein trimer, and each spike bulb is triangular. In this work, we replace each bulbous coronavirus spike with a bead triplet, where each bead of the triplet is charged identically. This paper, thus, explores the role of bulb triangularity on the rotational diffusivity, an effect not previously considered. We thus use energy minimization for the spreading of triangular bulbs over the spherical capsid. The latter both translates and twists the coronavirus spikes relative to one another, and we then next arrive at the rotational diffusivity of the coronavirus particle in suspension, from first principles. We learn that the triangularity of the coronavirus spike bulb decreases its rotational diffusivity. For a typical peplomer population of 74, bulb triangularity decreases the rotational diffusivity by 39%.

Topics & Concepts

PhysicsThermal diffusivityCoronavirus disease 2019 (COVID-19)Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)CoronavirusMedicineThermodynamicsDiseasePathologyInfectious disease (medical specialty)Infection Control and VentilationExperimental and Theoretical Physics Studies