J. Wakeley. Genetics, 153 (4):
1863-1871(декабря 1999)
Аннотация
A nonequilibrium migration model is proposed and applied to genetic data from humans. The model assumes symmetric migration among all possible pairs of demes and that the number of demes is large. With these assumptions it is straightforward to allow for changes in demography, and here a single abrupt change is considered. Under the model this change is identical to a change in the ancestral effective population size and might be caused by changes in deme size, in the number of demes, or in the migration rate. Expressions for the expected numbers of sites segregating at particular frequencies in a multideme sample are derived. A maximum-likelihood analysis of independent polymorphic restriction sites in humans reveals a decrease in effective size. This is consistent with a change in the rates of migration among human subpopulations from ancient low levels to present high ones.
%0 Journal Article
%1 wakeley1999nonequilibrium
%A Wakeley, J
%D 1999
%J Genetics
%K coalescent_theory coalescing_random_walk eigenvalues isolation_by_distance scattering-collecting spatial_coalescent
%N 4
%P 1863-1871
%T Nonequilibrium migration in human history
%U http://www.ncbi.nlm.nih.gov/pubmed/10581291
%V 153
%X A nonequilibrium migration model is proposed and applied to genetic data from humans. The model assumes symmetric migration among all possible pairs of demes and that the number of demes is large. With these assumptions it is straightforward to allow for changes in demography, and here a single abrupt change is considered. Under the model this change is identical to a change in the ancestral effective population size and might be caused by changes in deme size, in the number of demes, or in the migration rate. Expressions for the expected numbers of sites segregating at particular frequencies in a multideme sample are derived. A maximum-likelihood analysis of independent polymorphic restriction sites in humans reveals a decrease in effective size. This is consistent with a change in the rates of migration among human subpopulations from ancient low levels to present high ones.
@article{wakeley1999nonequilibrium,
abstract = {A nonequilibrium migration model is proposed and applied to genetic data from humans. The model assumes symmetric migration among all possible pairs of demes and that the number of demes is large. With these assumptions it is straightforward to allow for changes in demography, and here a single abrupt change is considered. Under the model this change is identical to a change in the ancestral effective population size and might be caused by changes in deme size, in the number of demes, or in the migration rate. Expressions for the expected numbers of sites segregating at particular frequencies in a multideme sample are derived. A maximum-likelihood analysis of independent polymorphic restriction sites in humans reveals a decrease in effective size. This is consistent with a change in the rates of migration among human subpopulations from ancient low levels to present high ones.},
added-at = {2015-08-24T20:28:48.000+0200},
author = {Wakeley, J},
biburl = {https://www.bibsonomy.org/bibtex/2eee92aa535e74a3ae1c337df9897dcf6/peter.ralph},
interhash = {6348cfe3b88c71f3185e0cc78c5d701f},
intrahash = {eee92aa535e74a3ae1c337df9897dcf6},
journal = {Genetics},
keywords = {coalescent_theory coalescing_random_walk eigenvalues isolation_by_distance scattering-collecting spatial_coalescent},
month = dec,
number = 4,
pages = {1863-1871},
pmid = {10581291},
timestamp = {2015-08-24T20:28:48.000+0200},
title = {Nonequilibrium migration in human history},
url = {http://www.ncbi.nlm.nih.gov/pubmed/10581291},
volume = 153,
year = 1999
}