The genetic diversity of a species is shaped by its recent evolutionary history and can be used to infer demographic events or selective sweeps. Most inference methods are based on the null hypothesis that natural selection is a weak or infrequent evolutionary force. However, many species, particularly pathogens, are under continuous pressure to adapt in response to changing environments. A statistical framework for inference from diversity data of such populations is currently lacking. Towards this goal, we explore the properties of genealogies in a model of continual adaptation in asexual populations. We show that lineages trace back to a small pool of highly fit ancestors, in which almost simultaneous coalescence of more than two lineage...
One of the most useful models in population genetics is that of a selective sweep and the consequent...
Genealogical or coalescent methods have proved very useful in interpreting and understanding a wide ...
The interplay of divergent selection and gene flow is key to understanding how populations adapt to ...
The genetic diversity of a species is shaped by its recent evolutionary history and can be used to i...
To learn about the past from a sample of genomic sequences, one needs to understand how evolutionary...
To learn about the past from a sample of genomic sequences, one needs to understand how evolutionary...
Coalescent theory has provided a basis for evolutionary biologists to build sophisticated methods fo...
Abstract. We review the statistical properties of the genealogies of a few models of evolution. In t...
Geographically separated populations can convergently adapt to the same selection pressure. Converge...
A long-standing problem in evolutionary biology has been determining whether and how gradual, increm...
In sexual populations, selection operates neither on the whole genome, which is repeatedly taken apa...
The use of genetic polymorphism data to understand the dynamics of adaptation and identify the loci ...
Few genetic differences between human populations conform to the classic model of positive selection...
Convergent adaptation is the independent evolution of similar traits conferring a fitness advantage ...
In sexual populations, selection operates neither on the whole genome, which is repeatedly taken apa...
One of the most useful models in population genetics is that of a selective sweep and the consequent...
Genealogical or coalescent methods have proved very useful in interpreting and understanding a wide ...
The interplay of divergent selection and gene flow is key to understanding how populations adapt to ...
The genetic diversity of a species is shaped by its recent evolutionary history and can be used to i...
To learn about the past from a sample of genomic sequences, one needs to understand how evolutionary...
To learn about the past from a sample of genomic sequences, one needs to understand how evolutionary...
Coalescent theory has provided a basis for evolutionary biologists to build sophisticated methods fo...
Abstract. We review the statistical properties of the genealogies of a few models of evolution. In t...
Geographically separated populations can convergently adapt to the same selection pressure. Converge...
A long-standing problem in evolutionary biology has been determining whether and how gradual, increm...
In sexual populations, selection operates neither on the whole genome, which is repeatedly taken apa...
The use of genetic polymorphism data to understand the dynamics of adaptation and identify the loci ...
Few genetic differences between human populations conform to the classic model of positive selection...
Convergent adaptation is the independent evolution of similar traits conferring a fitness advantage ...
In sexual populations, selection operates neither on the whole genome, which is repeatedly taken apa...
One of the most useful models in population genetics is that of a selective sweep and the consequent...
Genealogical or coalescent methods have proved very useful in interpreting and understanding a wide ...
The interplay of divergent selection and gene flow is key to understanding how populations adapt to ...