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More or less deadly? A mathematical model that predicts SARS-CoV-2 evolutionary direction

Zhaobin Xu, Dong‐Qing Wei, Qiangcheng Zeng, Hongmei Zhang, Yinghui Sun, Jacques Demongeot

2023Computers in Biology and Medicine20 citationsDOIOpen Access PDF

Abstract

SARS-CoV-2 has caused tremendous deaths globally. It is of great value to predict the evolutionary direction of SARS-CoV-2. In this paper, we proposed a novel mathematical model that could predict the evolutionary trend of SARS-CoV-2. We focus on the mutational effects on viral assembly capacity. A robust coarse-grained mathematical model is constructed to simulate the virus dynamics in the host body. Both virulence and transmissibility can be quantified in this model. A delicate equilibrium point that optimizes the transmissibility can be numerically obtained. Based on this model, the virulence of SARS-CoV-2 might further decrease, accompanied by an enhancement of transmissibility. However, this trend is not continuous; its virulence will not disappear but remains at a relatively stable range. A virus assembly model which simulates the virus packing process is also proposed. It can be explained why a few mutations would lead to a significant divergence in clinical performance, both in the overall particle formation quantity and virulence. This research provides a novel mathematical attempt to elucidate the evolutionary driving force in RNA virus evolution.

Topics & Concepts

Transmissibility (structural dynamics)VirulenceDivergence (linguistics)VirusEpidemic modelSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Range (aeronautics)MutationCoronavirus disease 2019 (COVID-19)BiologyComputer scienceComputational biologyVirologyPhysicsGeneticsEngineeringMedicineGenePhilosophyInfectious disease (medical specialty)Vibration isolationDiseaseQuantum mechanicsAerospace engineeringEnvironmental healthVibrationPathologyPopulationLinguisticsEvolution and Genetic DynamicsSARS-CoV-2 and COVID-19 ResearchBacteriophages and microbial interactions
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