The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biology that has gained additional importance in the light of the recent global change discussion. Here, we combined laboratory natural selection (experimental evolution) in Drosophila melanogaster with genome-wide next generation sequencing of DNA pools (Pool-Seq) to identify alleles that are favourable in a novel laboratory environment and traced their trajectories during the adaptive process. Already after 15 generations, we identified a pronounced genomic response to selection, with almost 5000 single nucleotide polymorphisms (SNP; genome-wide false discovery rates < 0.005%) deviating from neutral expectation. Importantly, the evolutionary tra...
What are the genomic foundations of adaptation in sexual populations? We address this question using...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
The molecular basis of adaptation remains elusive even with the current ease of sequencing the genom...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biol...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Experimental evolutionary genomics now allows biologists to test fundamental theories concerning the...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Background: Population genetic theory predicts that rapid adaptation is largely driven by complex tr...
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...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
The molecular basis of adaptation remains elusive even with the current ease of sequencing the genom...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biol...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Experimental evolutionary genomics now allows biologists to test fundamental theories concerning the...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Background: Population genetic theory predicts that rapid adaptation is largely driven by complex tr...
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...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
The molecular basis of adaptation remains elusive even with the current ease of sequencing the genom...