%0 Journal Article %1 coop2012patterns %A Coop, G %A Ralph, P %D 2012 %J Genetics %K coalescent_theory myown partial_sweep population_genomics selective_sweep soft_sweeps %N 1 %P 205-224 %R 10.1534/genetics.112.141861 %T Patterns of neutral diversity under general models of selective sweeps %U http://www.ncbi.nlm.nih.gov/pubmed/22714413 %V 192 %X Two major sources of stochasticity in the dynamics of neutral alleles result from resampling of finite populations (genetic drift) and the random genetic background of nearby selected alleles on which the neutral alleles are found (linked selection). There is now good evidence that linked selection plays an important role in shaping polymorphism levels in a number of species. One of the best-investigated models of linked selection is the recurrent full-sweep model, in which newly arisen selected alleles fix rapidly. However, the bulk of selected alleles that sweep into the population may not be destined for rapid fixation. Here we develop a general model of recurrent selective sweeps in a coalescent framework, one that generalizes the recurrent full-sweep model to the case where selected alleles do not sweep to fixation. We show that in a large population, only the initial rapid increase of a selected allele affects the genealogy at partially linked sites, which under fairly general assumptions are unaffected by the subsequent fate of the selected allele. We also apply the theory to a simple model to investigate the impact of recurrent partial sweeps on levels of neutral diversity and find that for a given reduction in diversity, the impact of recurrent partial sweeps on the frequency spectrum at neutral sites is determined primarily by the frequencies rapidly achieved by the selected alleles. Consequently, recurrent sweeps of selected alleles to low frequencies can have a profound effect on levels of diversity but can leave the frequency spectrum relatively unperturbed. In fact, the limiting coalescent model under a high rate of sweeps to low frequency is identical to the standard neutral model. The general model of selective sweeps we describe goes some way toward providing a more flexible framework to describe genomic patterns of diversity than is currently available.

@article{coop2012patterns, abstract = {Two major sources of stochasticity in the dynamics of neutral alleles result from resampling of finite populations (genetic drift) and the random genetic background of nearby selected alleles on which the neutral alleles are found (linked selection). There is now good evidence that linked selection plays an important role in shaping polymorphism levels in a number of species. One of the best-investigated models of linked selection is the recurrent full-sweep model, in which newly arisen selected alleles fix rapidly. However, the bulk of selected alleles that sweep into the population may not be destined for rapid fixation. Here we develop a general model of recurrent selective sweeps in a coalescent framework, one that generalizes the recurrent full-sweep model to the case where selected alleles do not sweep to fixation. We show that in a large population, only the initial rapid increase of a selected allele affects the genealogy at partially linked sites, which under fairly general assumptions are unaffected by the subsequent fate of the selected allele. We also apply the theory to a simple model to investigate the impact of recurrent partial sweeps on levels of neutral diversity and find that for a given reduction in diversity, the impact of recurrent partial sweeps on the frequency spectrum at neutral sites is determined primarily by the frequencies rapidly achieved by the selected alleles. Consequently, recurrent sweeps of selected alleles to low frequencies can have a profound effect on levels of diversity but can leave the frequency spectrum relatively unperturbed. In fact, the limiting coalescent model under a high rate of sweeps to low frequency is identical to the standard neutral model. The general model of selective sweeps we describe goes some way toward providing a more flexible framework to describe genomic patterns of diversity than is currently available.}, added-at = {2013-01-18T23:44:31.000+0100}, author = {Coop, G and Ralph, P}, biburl = {https://www.bibsonomy.org/bibtex/2a68b5fa7be560b37fcd819465ab2ebee/peter.ralph}, doi = {10.1534/genetics.112.141861}, interhash = {3355661ff8305a0af1da556b9a81d0bb}, intrahash = {a68b5fa7be560b37fcd819465ab2ebee}, journal = {Genetics}, keywords = {coalescent_theory myown partial_sweep population_genomics selective_sweep soft_sweeps}, month = sep, number = 1, pages = {205-224}, pmcid = {PMC3430537}, pmid = {22714413}, timestamp = {2014-03-26T20:28:28.000+0100}, title = {Patterns of neutral diversity under general models of selective sweeps}, url = {http://www.ncbi.nlm.nih.gov/pubmed/22714413}, volume = 192, year = 2012 }