Background: Recent experimental work has shown that the evolutionary dynamics of bacteria expanding across space can differ dramatically from what we expect under well-mixed conditions. During spatial expansion, deleterious mutations can accumulate due to inefficient selection on the expansion front, potentially interfering with and modifying adaptive evolutionary processes. Results: We used whole genome sequencing to follow the genomic evolution of 10 mutator Escherichia coli lines during 39 days ( ~ 1650 generations) of a spatial expansion, which allowed us to gain a temporal perspective on the interaction of adaptive and non-adaptive evolutionary processes during range expansions. We used elastic net regression to infer the positive or ...
Abstract Background Twelve populations of E. coli were serially propagated for 20,000 generations in...
International audienceMutations are the ultimate source of heritable variation for evolution. Unders...
Beneficial mutations fuel adaptation by altering phenotypes that enhance the fit of organisms to the...
Bacterial populations have been shown to accumulate deleterious mutations during spatial expansions ...
Recent theory predicts that the fitness of pioneer populations can decline when species expand their...
Environmental changes have caused episodes of habitat expansions in the evolutionary history of many...
Understanding the extreme variation among bacterial genomes remains an unsolved challenge in evoluti...
Mutations are the ultimate source of heritable variation for evolution. Understanding how mutation r...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...
Expanding populations incur a mutation burden, the socalled expansion load. Using a mixture of indiv...
Evolution by natural selection is driven by the continuous generation of adaptive mutations. We meas...
AbstractA recent study indicates that the genomic mutation rate of the gut bacterium Escherichia col...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...
International audienceThe most consistent result in more than two decades of experimental evolution ...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
Abstract Background Twelve populations of E. coli were serially propagated for 20,000 generations in...
International audienceMutations are the ultimate source of heritable variation for evolution. Unders...
Beneficial mutations fuel adaptation by altering phenotypes that enhance the fit of organisms to the...
Bacterial populations have been shown to accumulate deleterious mutations during spatial expansions ...
Recent theory predicts that the fitness of pioneer populations can decline when species expand their...
Environmental changes have caused episodes of habitat expansions in the evolutionary history of many...
Understanding the extreme variation among bacterial genomes remains an unsolved challenge in evoluti...
Mutations are the ultimate source of heritable variation for evolution. Understanding how mutation r...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...
Expanding populations incur a mutation burden, the socalled expansion load. Using a mixture of indiv...
Evolution by natural selection is driven by the continuous generation of adaptive mutations. We meas...
AbstractA recent study indicates that the genomic mutation rate of the gut bacterium Escherichia col...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...
International audienceThe most consistent result in more than two decades of experimental evolution ...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
Abstract Background Twelve populations of E. coli were serially propagated for 20,000 generations in...
International audienceMutations are the ultimate source of heritable variation for evolution. Unders...
Beneficial mutations fuel adaptation by altering phenotypes that enhance the fit of organisms to the...