0000000000771654

AUTHOR

Matteo Smerlak

0000-0002-0844-8868

showing 1 related works from this author

Why are viral genomes so fragile? The bottleneck hypothesis

2021

If they undergo new mutations at each replication cycle, why are RNA viral genomes so fragile, with most mutations being either strongly deleterious or lethal? Here we provide theoretical and numerical evidence for the hypothesis that genetic fragility is partly an evolutionary response to the multiple population bottlenecks experienced by viral populations at various stages of their life cycles. Modelling within-host viral populations as multi-type branching processes, we show that mutational fragility lowers the rate at which Muller’s ratchet clicks and increases the survival probability through multiple bottlenecks. In the context of a susceptible-exposed-infectious-recovered epidemiolog…

Evolutionary GeneticsRNA virusesMutation rateEpidemiologyExtinct GenomesMedicine and Health SciencesBiology (General)Genetics0303 health sciencesEvolutionary epidemiologyEcologyMicrobial MutationGenomicsDeletion MutationComputational Theory and MathematicsViral genomesGenetic EpidemiologyModeling and SimulationViral evolutionPopulation bottlenecksVirusesRNA ViralResearch ArticleQH301-705.5Genomics[SDV.CAN]Life Sciences [q-bio]/CancerContext (language use)Genome ViralBiologyMicrobiologyGenomic InstabilityViral EvolutionBottleneckEvolution Molecular03 medical and health sciencesCellular and Molecular NeuroscienceSurvival probabilityVirologyGeneticsFragilityMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biologyEvolutionary BiologyModels Genetic030306 microbiologyOrganismsComputational BiologyBiology and Life SciencesRNAVirus evolutionOrganismal EvolutionGenetic architecture[MATH.MATH-PR]Mathematics [math]/Probability [math.PR]Population bottleneckViral replicationMutationMicrobial Evolution
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