Controlling for P‐value inflation in allele frequency change in experimental evolution and artificial selection experiments

Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However,...

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Published inMolecular ecology resources Vol. 17; no. 4; pp. 770 - 782
Main Authors Kemppainen, Petri, Rønning, Bernt, Kvalnes, Thomas, Hagen, Ingerid J., Ringsby, Thor Harald, Billing, Anna M., Pärn, Henrik, Lien, Sigbjørn, Husby, Arild, Sæther, Bernt‐Erik, Jensen, Henrik
Format Journal Article
LanguageEnglish
Published England Wiley Subscription Services, Inc 01.07.2017
Subjects
Animal behavior
Animals
artificial selection
directed evolution
Dynamics
Estimation
Evolution
Evolution, Molecular
experimental evolution
Gene Frequency
Genes
Genetic Drift
Genetics, Population
genome
Genomes
genomewide association studies
genomics
inflation
Loci
Models, Genetic
Natural selection
Passer domesticus
Population genetics
population stratification
Population structure
Populations
P‐value inflation
relatedness
Selection, Genetic
Simulation
Sparrows - genetics
Stratification
population stratification
relatedness
genomewide association studies
P-value inflation
experimental evolution
artificial selection
Online AccessGet full text
ISSN1755-098X
1755-0998
1755-0998
DOI10.1111/1755-0998.12631

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Abstract Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However, such studies report surprisingly many loci under selection, suggesting that current tests for allele frequency change may be subject to P‐value inflation and hence be anticonservative. One factor known from genomewide association (GWA) studies to cause P‐value inflation is population stratification, such as relatedness among individuals. Here, we suggest that by treating presence of an individual in a population after selection as a binary response variable, existing GWA methods can be used to account for relatedness when estimating allele frequency change. We show that accounting for relatedness like this effectively reduces false‐positives in tests for allele frequency change in simulated data with varying levels of population structure. However, once relatedness has been accounted for, the power to detect causal loci under selection is low. Finally, we demonstrate the presence of P‐value inflation in allele frequency change in empirical data spanning multiple generations from an artificial selection experiment on tarsus length in two free‐living populations of house sparrow and correct for this using genomic control. Our results indicate that since allele frequencies in large parts of the genome may change when selection acts on a heritable trait, such selection is likely to have considerable and immediate consequences for the eco‐evolutionary dynamics of the affected populations.
AbstractList Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However, such studies report surprisingly many loci under selection, suggesting that current tests for allele frequency change may be subject to P-value inflation and hence be anticonservative. One factor known from genomewide association (GWA) studies to cause P-value inflation is population stratification, such as relatedness among individuals. Here, we suggest that by treating presence of an individual in a population after selection as a binary response variable, existing GWA methods can be used to account for relatedness when estimating allele frequency change. We show that accounting for relatedness like this effectively reduces false-positives in tests for allele frequency change in simulated data with varying levels of population structure. However, once relatedness has been accounted for, the power to detect causal loci under selection is low. Finally, we demonstrate the presence of P-value inflation in allele frequency change in empirical data spanning multiple generations from an artificial selection experiment on tarsus length in two free-living populations of house sparrow and correct for this using genomic control. Our results indicate that since allele frequencies in large parts of the genome may change when selection acts on a heritable trait, such selection is likely to have considerable and immediate consequences for the eco-evolutionary dynamics of the affected populations.
Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However, such studies report surprisingly many loci under selection, suggesting that current tests for allele frequency change may be subject to P ‐value inflation and hence be anticonservative. One factor known from genomewide association (GWA) studies to cause P ‐value inflation is population stratification, such as relatedness among individuals. Here, we suggest that by treating presence of an individual in a population after selection as a binary response variable, existing GWA methods can be used to account for relatedness when estimating allele frequency change. We show that accounting for relatedness like this effectively reduces false‐positives in tests for allele frequency change in simulated data with varying levels of population structure. However, once relatedness has been accounted for, the power to detect causal loci under selection is low. Finally, we demonstrate the presence of P ‐value inflation in allele frequency change in empirical data spanning multiple generations from an artificial selection experiment on tarsus length in two free‐living populations of house sparrow and correct for this using genomic control. Our results indicate that since allele frequencies in large parts of the genome may change when selection acts on a heritable trait, such selection is likely to have considerable and immediate consequences for the eco‐evolutionary dynamics of the affected populations.
Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However, such studies report surprisingly many loci under selection, suggesting that current tests for allele frequency change may be subject to P-value inflation and hence be anticonservative. One factor known from genomewide association (GWA) studies to cause P-value inflation is population stratification, such as relatedness among individuals. Here, we suggest that by treating presence of an individual in a population after selection as a binary response variable, existing GWA methods can be used to account for relatedness when estimating allele frequency change. We show that accounting for relatedness like this effectively reduces false-positives in tests for allele frequency change in simulated data with varying levels of population structure. However, once relatedness has been accounted for, the power to detect causal loci under selection is low. Finally, we demonstrate the presence of P-value inflation in allele frequency change in empirical data spanning multiple generations from an artificial selection experiment on tarsus length in two free-living populations of house sparrow and correct for this using genomic control. Our results indicate that since allele frequencies in large parts of the genome may change when selection acts on a heritable trait, such selection is likely to have considerable and immediate consequences for the eco-evolutionary dynamics of the affected populations.Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele frequency change than expected by genetic drift alone are assumed to be directly or indirectly associated with traits under selection. However, such studies report surprisingly many loci under selection, suggesting that current tests for allele frequency change may be subject to P-value inflation and hence be anticonservative. One factor known from genomewide association (GWA) studies to cause P-value inflation is population stratification, such as relatedness among individuals. Here, we suggest that by treating presence of an individual in a population after selection as a binary response variable, existing GWA methods can be used to account for relatedness when estimating allele frequency change. We show that accounting for relatedness like this effectively reduces false-positives in tests for allele frequency change in simulated data with varying levels of population structure. However, once relatedness has been accounted for, the power to detect causal loci under selection is low. Finally, we demonstrate the presence of P-value inflation in allele frequency change in empirical data spanning multiple generations from an artificial selection experiment on tarsus length in two free-living populations of house sparrow and correct for this using genomic control. Our results indicate that since allele frequencies in large parts of the genome may change when selection acts on a heritable trait, such selection is likely to have considerable and immediate consequences for the eco-evolutionary dynamics of the affected populations.
Author Hagen, Ingerid J.
Rønning, Bernt
Sæther, Bernt‐Erik
Kvalnes, Thomas
Jensen, Henrik
Lien, Sigbjørn
Ringsby, Thor Harald
Kemppainen, Petri
Pärn, Henrik
Husby, Arild
Billing, Anna M.
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Issue 4
Keywords population stratification
relatedness
genomewide association studies
P-value inflation
experimental evolution
artificial selection
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Snippet Experimental evolution studies can be used to explore genomic response to artificial and natural selection. In such studies, loci that display larger allele...
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SubjectTerms Animal behavior
Animals
artificial selection
directed evolution
Dynamics
Estimation
Evolution
Evolution, Molecular
experimental evolution
Gene Frequency
Genes
Genetic Drift
Genetics, Population
genome
Genomes
genomewide association studies
genomics
inflation
Loci
Models, Genetic
Natural selection
Passer domesticus
Population genetics
population stratification
Population structure
Populations
P‐value inflation
relatedness
Selection, Genetic
Simulation
Sparrows - genetics
Stratification
Title Controlling for P‐value inflation in allele frequency change in experimental evolution and artificial selection experiments
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https://www.ncbi.nlm.nih.gov/pubmed/27813315
https://www.proquest.com/docview/1909185264
https://www.proquest.com/docview/1836727788
https://www.proquest.com/docview/2053883679
Volume 17
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