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Statistical Power Analysis of Neutrality Tests Under Demographic Expansions, Contractions and Bottlenecks With Recombination

2008· article· en· 346 citations· W1975297071 on OpenAlex· 10.1534/genetics.107.083006

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Opus teacher head0.010
GPT teacher head0.261
Teacher spread
0.251 · how far apart the two teachers sit on this one work
Validation status
score_only:v0-immature-baseline · verbatim from the scoring run: score_only means the number may rank works, and no category label ships from it

Abstract

Several tests have been proposed to detect departures of nucleotide variability patterns from neutral expectations. However, very different kinds of evolutionary processes, such as selective events or demographic changes, can produce similar deviations from these tests, thus making interpretation difficult when a significant departure of neutrality is detected. Here we study the effects of demography and recombination upon neutrality tests by analyzing their power under sudden population expansions, sudden contractions, and bottlenecks. We evaluate tests based on the frequency spectrum of mutations and the distribution of haplotypes and explore the consequences of using incorrect estimates of the rates of recombination when testing for neutrality. We show that tests that rely on haplotype frequencies-especially Fs and ZnS, which are based, respectively, on the number of different haplotypes and on the r2 values between all pairs of polymorphic sites-are the most powerful for detecting expansions on nonrecombining genomic regions. Nevertheless, they are strongly affected by misestimations of recombination, so they should not be used when recombination levels are unknown. Instead, class I tests, particularly Tajima's D or R2, are recommended.

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The record

Venue
Genetics
Topic
Evolution and Genetic Dynamics
Field
Biochemistry, Genetics and Molecular Biology
Canadian institutions
Funders
Ministerio de Ciencia y TecnologíaGeneralitat de CatalunyaGenome Canada
Keywords
RecombinationNeutralityHaplotypeBiologyGeneticsEvolutionary biologyPopulationAlleleGeneDemography
Has abstract in OpenAlex
yes