| Literature DB >> 30980658 |
Esteban Domingo1,2, Ana I de Ávila1, Isabel Gallego1,2, Julie Sheldon3, Celia Perales1,2,4.
Abstract
The quasispecies dynamics of viral populations (continuous generation of variant genomes and competition among them) has as one of its frequent consequences variations in overall multiplication capacity, a major component of viral fitness. This parameter has multiple implications for viral pathogenesis and viral disease control, some of them unveiled thanks to deep sequencing of viral populations. Darwinian fitness is an old concept whose quantification dates back to the early developments of population genetics. It was later applied to viruses (mainly to RNA viruses) to quantify relative multiplication capacities of individual mutant clones or complex populations. The present article reviews the fitness concept and its relevance for the understanding of the adaptive dynamics of viruses in constant and changing environments. Many studies have addressed the fitness cost of escape mutations (to antibodies, cytotoxic T cells or inhibitors) as an influence on the efficacy of antiviral interventions. Here, we summarize the evidence that the basal fitness level can be a determinant of inhibitor resistance. © FEMS 2019.Entities:
Keywords: bottleneck; events; large population passages; mechanism of viral resistance; mutant spectrum; quasispecies dynamics; replicative capacity
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Year: 2019 PMID: 30980658 DOI: 10.1093/femspd/ftz021
Source DB: PubMed Journal: Pathog Dis ISSN: 2049-632X Impact factor: 3.166