Estimation of 2N(e)s from temporal allele frequency data

Jonathan Paul Bollback; Thomas L. York; Rasmus Nielsen

doi:10.1534/genetics.107.085019

Estimation of 2N(e)s from temporal allele frequency data

Jonathan Paul Bollback, Thomas L. York, Rasmus Nielsen

Microbiology

87 Citations (Scopus)

Abstract

We develop a new method for estimating effective population sizes, Ne, and selection coefficients, s, from time-series data of allele frequencies sampled from a single diallelic locus. The method is based on calculating transition probabilities, using a numerical solution of the diffusion process, and assuming independent binomial sampling from this diffusion process at each time point. We apply the method in two example applications. First, we estimate selection coefficients acting on the CCR5-{Delta}32 mutation on the basis of published samples of contemporary and ancient human DNA. We show that the data are compatible with the assumption of s = 0, although moderate amounts of selection acting on this mutation cannot be excluded. In our second example, we estimate the selection coefficient acting on a mutation segregating in an experimental phage population. We show that the selection coefficient acting on this mutation is ~0.43.

Original language	English
Journal	Genetics
Volume	179
Pages (from-to)	497-502
Number of pages	6
ISSN	0016-6731
DOIs	https://doi.org/10.1534/genetics.107.085019
Publication status	Published - 2008

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title = "Estimation of 2N(e)s from temporal allele frequency data",

abstract = "We develop a new method for estimating effective population sizes, Ne, and selection coefficients, s, from time-series data of allele frequencies sampled from a single diallelic locus. The method is based on calculating transition probabilities, using a numerical solution of the diffusion process, and assuming independent binomial sampling from this diffusion process at each time point. We apply the method in two example applications. First, we estimate selection coefficients acting on the CCR5-{Delta}32 mutation on the basis of published samples of contemporary and ancient human DNA. We show that the data are compatible with the assumption of s = 0, although moderate amounts of selection acting on this mutation cannot be excluded. In our second example, we estimate the selection coefficient acting on a mutation segregating in an experimental phage population. We show that the selection coefficient acting on this mutation is ~0.43.",

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T1 - Estimation of 2N(e)s from temporal allele frequency data

AU - Bollback, Jonathan Paul

AU - York, Thomas L.

AU - Nielsen, Rasmus

PY - 2008

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N2 - We develop a new method for estimating effective population sizes, Ne, and selection coefficients, s, from time-series data of allele frequencies sampled from a single diallelic locus. The method is based on calculating transition probabilities, using a numerical solution of the diffusion process, and assuming independent binomial sampling from this diffusion process at each time point. We apply the method in two example applications. First, we estimate selection coefficients acting on the CCR5-{Delta}32 mutation on the basis of published samples of contemporary and ancient human DNA. We show that the data are compatible with the assumption of s = 0, although moderate amounts of selection acting on this mutation cannot be excluded. In our second example, we estimate the selection coefficient acting on a mutation segregating in an experimental phage population. We show that the selection coefficient acting on this mutation is ~0.43.

AB - We develop a new method for estimating effective population sizes, Ne, and selection coefficients, s, from time-series data of allele frequencies sampled from a single diallelic locus. The method is based on calculating transition probabilities, using a numerical solution of the diffusion process, and assuming independent binomial sampling from this diffusion process at each time point. We apply the method in two example applications. First, we estimate selection coefficients acting on the CCR5-{Delta}32 mutation on the basis of published samples of contemporary and ancient human DNA. We show that the data are compatible with the assumption of s = 0, although moderate amounts of selection acting on this mutation cannot be excluded. In our second example, we estimate the selection coefficient acting on a mutation segregating in an experimental phage population. We show that the selection coefficient acting on this mutation is ~0.43.

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DO - 10.1534/genetics.107.085019

M3 - Journal article

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SN - 1943-2631

VL - 179

SP - 497

EP - 502

JO - Genetics

JF - Genetics

ER -

Estimation of 2N(e)s from temporal allele frequency data

Abstract

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