The adaptation of large asexual populations is hampered by the competition between independently arising beneficial mutations in different individuals, which is known as clonal interference. In classic work, Fisher and Muller proposed that recombination provides an evolutionary advantage in large populations by alleviating this competition. Based on recent progress in quantifying the speed of adaptation in asexual populations undergoing clonal interference, we present a detailed analysis of the Fisher-Muller mechanism for a model genome consisting of two loci with an infinite number of beneficial alleles each and multiplicative (nonepistatic) fitness effects. We solve the deterministic, infinite population dynamics exactly and show that, fo...
A fundamental problem of asexual adaptation is that beneficial substitutions are not efficiently acc...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
SummaryBackgroundThe rate at which beneficial mutations accumulate determines how fast asexual popul...
Adaptation often involves the acquisition of a large number of genomic changes which arise as mutati...
Adaptation often involves the acquisition of a large number of genomic changes that arise as mutatio...
In large populations, multiple beneficial mutations may be simultaneously spreading. In asexual popu...
<div><p>In large populations, many beneficial mutations may be simultaneously available and may comp...
When large asexual populations adapt, competition between simultaneously segregating mutations slows...
In large populations, many beneficial mutations may be simultaneously available and may compete with...
This thesis investigates how breaking apart selection interference (‘Hill-Robertson’ effects) that a...
We study the population genetics of adaptation in nonequilibrium haploid asexual populations. We fin...
It has been a puzzling question why several organisms reproduce sexually. Fisher and Muller hypothes...
Genetic exchange in microbes and other facultative sexuals can be rare enough that evolution is almo...
We study the process of fixation of beneficial mutations in an asexual population by means of a theo...
Sex and recombination are pervasive throughout nature despite their substantial costs1. Understandin...
A fundamental problem of asexual adaptation is that beneficial substitutions are not efficiently acc...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
SummaryBackgroundThe rate at which beneficial mutations accumulate determines how fast asexual popul...
Adaptation often involves the acquisition of a large number of genomic changes which arise as mutati...
Adaptation often involves the acquisition of a large number of genomic changes that arise as mutatio...
In large populations, multiple beneficial mutations may be simultaneously spreading. In asexual popu...
<div><p>In large populations, many beneficial mutations may be simultaneously available and may comp...
When large asexual populations adapt, competition between simultaneously segregating mutations slows...
In large populations, many beneficial mutations may be simultaneously available and may compete with...
This thesis investigates how breaking apart selection interference (‘Hill-Robertson’ effects) that a...
We study the population genetics of adaptation in nonequilibrium haploid asexual populations. We fin...
It has been a puzzling question why several organisms reproduce sexually. Fisher and Muller hypothes...
Genetic exchange in microbes and other facultative sexuals can be rare enough that evolution is almo...
We study the process of fixation of beneficial mutations in an asexual population by means of a theo...
Sex and recombination are pervasive throughout nature despite their substantial costs1. Understandin...
A fundamental problem of asexual adaptation is that beneficial substitutions are not efficiently acc...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
SummaryBackgroundThe rate at which beneficial mutations accumulate determines how fast asexual popul...