Heterogeneity in the fitness effects of individual mutations has been found across different environmental and genetic contexts. Going beyond effects on individual mutations, how is the distribution of selective effects, f(s), altered by changes in genetic and environmental context? In this study, we examined changes in the major features of f(s) by estimating viability selection on 36 individual mutations in Drosophila melanogaster across two different environments in two different genetic backgrounds that were either adapted or nonadapted to the two test environments. Both environment and genetic background affected selection on individual mutations. However, the overall distribution f(s) appeared robust to changes in genetic background b...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
In variable environments, selection should favor generalists that maintain fitness across a range of...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...
Heterogeneity in the fitness effects of individual mutations has been found across different environ...
Evaluating the evolutionary role of mutations depends on an understanding of their major properties,...
The fitness effect of a mutation can depend on both its genetic background and the external environm...
Environmental heterogeneity helps maintain genetic variation in fitness. Therefore, one might predic...
Understanding the context-dependence of mutation represents the current frontier of mutation researc...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
When are mutations beneficial in one environment and deleterious in another? More generally, what is...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Adaptation of natural populations to variable environmental conditions may occur by changes in trait...
We used whole-genome resequencing data from a population of Drosophila melanogaster to investigate t...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
In variable environments, selection should favor generalists that maintain fitness across a range of...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...
Heterogeneity in the fitness effects of individual mutations has been found across different environ...
Evaluating the evolutionary role of mutations depends on an understanding of their major properties,...
The fitness effect of a mutation can depend on both its genetic background and the external environm...
Environmental heterogeneity helps maintain genetic variation in fitness. Therefore, one might predic...
Understanding the context-dependence of mutation represents the current frontier of mutation researc...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
When are mutations beneficial in one environment and deleterious in another? More generally, what is...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Adaptation of natural populations to variable environmental conditions may occur by changes in trait...
We used whole-genome resequencing data from a population of Drosophila melanogaster to investigate t...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
In variable environments, selection should favor generalists that maintain fitness across a range of...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...