Abstract Background When beneficial mutations present in different genomes spread simultaneously in an asexual population, their fixation can be delayed due to competition among them. This interference among mutations is mainly determined by the rate of beneficial mutations, which in turn depends on the population size, the total error rate, and the degree of adaptation of the population. RNA viruses, with their large population sizes and high error rates, are good candidates to present a great extent of interference. To test this hypothesis, in the current study we have investigated whether competition among beneficial mutations was responsible for the prolonged presence of polymorphisms in the mutant spectrum of an RNA virus, the bacterio...
As a consequence of the lack of proofreading activity of RNA virus polymerases, new viral genetic va...
Abstract: Viral studies have contributed substantially to the field of experimental evolution during...
A critical issue to understanding how populations adapt to new selective pressures is the relative c...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
<div><p>Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
AbstractRNA virus replication takes place at a very high error rate, and additional increases in thi...
Evolution of RNA bacteriophages of the family Leviviridae is governed by the high error rates of the...
Several factors play a role during the replication and transmission of RNA viruses. First, as a cons...
RNA viruses have an extremely high mutation rate, and we argue that the most plausible explanation f...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
© 2019 by the authors.The rate of change in selective pressures is one of the main factors that dete...
SummaryThe accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to cha...
RNA viruses have an extremely high mutation rate, and we argue that the most plausible explanation f...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
As a consequence of the lack of proofreading activity of RNA virus polymerases, new viral genetic va...
Abstract: Viral studies have contributed substantially to the field of experimental evolution during...
A critical issue to understanding how populations adapt to new selective pressures is the relative c...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
<div><p>Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
AbstractRNA virus replication takes place at a very high error rate, and additional increases in thi...
Evolution of RNA bacteriophages of the family Leviviridae is governed by the high error rates of the...
Several factors play a role during the replication and transmission of RNA viruses. First, as a cons...
RNA viruses have an extremely high mutation rate, and we argue that the most plausible explanation f...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
© 2019 by the authors.The rate of change in selective pressures is one of the main factors that dete...
SummaryThe accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to cha...
RNA viruses have an extremely high mutation rate, and we argue that the most plausible explanation f...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
As a consequence of the lack of proofreading activity of RNA virus polymerases, new viral genetic va...
Abstract: Viral studies have contributed substantially to the field of experimental evolution during...
A critical issue to understanding how populations adapt to new selective pressures is the relative c...