The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. Most adaptive traits are polygenic—i.e., result from selection on a large number of genetic loci—but most molecularly characterized traits have a simple genetic basis. This discrepancy is best explained by the difficulty in detecting small allele frequency changes (AFCs) across many contributing loci. To resolve this, we use laboratory natural selection to detect signatures for selective sweeps and polygenic adaptation. We exposed 10 replicates of a Drosophila simulans population to a new temperature regime and uncovered a polygenic architecture of an adaptive trait with high genetic redundancy among beneficial alleles. We observed convergent...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
Direct observation of evolution in response to natural environmental change can resolve fundamental ...
What are the genomic foundations of adaptation in sexual populations? We address this question using...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Background: Population genetic theory predicts that rapid adaptation is largely driven by complex tr...
Many adaptive traits are polygenic and frequently more loci contributing to the phenotype are segreg...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
The combination of experimental evolution with high-throughput sequencing of pooled individuals—i.e....
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Background: Population genetic theory predicts that rapid adaptation is largely driven by complex tr...
Adaptation to environmental stress is critical for long-term species persistence.With climate change...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biol...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
Direct observation of evolution in response to natural environmental change can resolve fundamental ...
What are the genomic foundations of adaptation in sexual populations? We address this question using...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Background: Population genetic theory predicts that rapid adaptation is largely driven by complex tr...
Many adaptive traits are polygenic and frequently more loci contributing to the phenotype are segreg...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
The combination of experimental evolution with high-throughput sequencing of pooled individuals—i.e....
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Background: Population genetic theory predicts that rapid adaptation is largely driven by complex tr...
Adaptation to environmental stress is critical for long-term species persistence.With climate change...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biol...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
Direct observation of evolution in response to natural environmental change can resolve fundamental ...
What are the genomic foundations of adaptation in sexual populations? We address this question using...