We study the dynamics of adaptation in asexual populations that undergo both beneficial and deleterious mutations. In particular, how the deleterious mutations affect the fixation of beneficial mutations was investigated. Using extensive Monte Carlo simulations, we find that in the "strong-selection weak mutation (SSWM)" regime or in the "clonal interference (CI)" regime, deleterious mutations rarely influence the distribution of "selection coefficients of the fixed mutations (SCFM)"; while in the "multiple mutations" regime, the accumulation of deleterious mutations would lead to a decrease in fitness significantly. We conclude that the effects of deleterious mutations on adaptation depend largely on the supply of beneficial mutations. And...
Because mutations are mostly deleterious, mutation rates should be reduced by natural selection. How...
Studies on the genetics of adaptation from new mutations typically neglect the possibility that a de...
International audienceMutation may impose a substantial load on populations, which varies according ...
We study the process of fixation of beneficial mutations in an asexual population by means of a theo...
We study the process of fixation of beneficial mutations in an asexual population by means of a theo...
When large asexual populations adapt, competition between simultaneously segregating mutations slows...
We study the population genetics of adaptation in nonequilibrium haploid asexual populations. We fin...
The rate at which mutations arise is under the control of complex biological systems, and is thus su...
In asexual populations, the rate of adaptation is basically limited by the frequency and properties ...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
Adaptation of asexual populations is driven by beneficial mutations and therefore the dynamics of th...
Mutation is the ultimate source of the genetic variation—including genetic variation for mutation ra...
We consider the accumulation of beneficial and deleterious mutations in asexual populations. The rat...
International audienceIn classical population genetics, mutation-selection balance refers to the equ...
We investigate the effect of deleterious mutations on the process of fixation of new advantageous mu...
Because mutations are mostly deleterious, mutation rates should be reduced by natural selection. How...
Studies on the genetics of adaptation from new mutations typically neglect the possibility that a de...
International audienceMutation may impose a substantial load on populations, which varies according ...
We study the process of fixation of beneficial mutations in an asexual population by means of a theo...
We study the process of fixation of beneficial mutations in an asexual population by means of a theo...
When large asexual populations adapt, competition between simultaneously segregating mutations slows...
We study the population genetics of adaptation in nonequilibrium haploid asexual populations. We fin...
The rate at which mutations arise is under the control of complex biological systems, and is thus su...
In asexual populations, the rate of adaptation is basically limited by the frequency and properties ...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
Adaptation of asexual populations is driven by beneficial mutations and therefore the dynamics of th...
Mutation is the ultimate source of the genetic variation—including genetic variation for mutation ra...
We consider the accumulation of beneficial and deleterious mutations in asexual populations. The rat...
International audienceIn classical population genetics, mutation-selection balance refers to the equ...
We investigate the effect of deleterious mutations on the process of fixation of new advantageous mu...
Because mutations are mostly deleterious, mutation rates should be reduced by natural selection. How...
Studies on the genetics of adaptation from new mutations typically neglect the possibility that a de...
International audienceMutation may impose a substantial load on populations, which varies according ...