A genome-wide scan for signatures of directional selection in domesticated pigs

Sunjin Moon; Tae Hun Kim; Kyung Tai Lee; Woori Kwak; Taeheon Lee; Si Woo Lee; Myung Jick Kim; Kyuho Cho; Namshin Kim; Won Hyong Chung; Samsun Sung; Taesung Park; Seoae Cho; Martien A.M. Groenen; Rasmus Nielsen; Yuseob Kim; Heebal Kim

doi:10.1186/s12864-015-1330-x

A genome-wide scan for signatures of directional selection in domesticated pigs

Sunjin Moon, Tae Hun Kim, Kyung Tai Lee, Woori Kwak, Taeheon Lee, Si Woo Lee, Myung Jick Kim, Kyuho Cho, Namshin Kim, Won Hyong Chung, Samsun Sung, Taesung Park, Seoae Cho, Martien A.M. Groenen, Rasmus Nielsen, Yuseob Kim, Heebal Kim^*

^*Corresponding author for this work

41 Citations (Scopus)

Abstract

Background: Animal domestication involved drastic phenotypic changes driven by strong artificial selection and also resulted in new populations of breeds, established by humans. This study aims to identify genes that show evidence of recent artificial selection during pig domestication. Results: Whole-genome resequencing of 30 individual pigs from domesticated breeds, Landrace and Yorkshire, and 10 Asian wild boars at ~16-fold coverage was performed resulting in over 4.3 million SNPs for 19,990 genes. We constructed a comprehensive genome map of directional selection by detecting selective sweeps using an FST-based approach that detects directional selection in lineages leading to the domesticated breeds and using a haplotype-based test that detects ongoing selective sweeps within the breeds. We show that candidate genes under selection are significantly enriched for loci implicated in quantitative traits important to pig reproduction and production. The candidate gene with the strongest signals of directional selection belongs to group III of the metabolomics glutamate receptors, known to affect brain functions associated with eating behavior, suggesting that loci under strong selection include loci involved in behaviorial traits in domesticated pigs including tameness. Conclusions: We show that a significant proportion of selection signatures coincide with loci that were previously inferred to affect phenotypic variation in pigs. We further identify functional enrichment related to behavior, such as signal transduction and neuronal activities, for those targets of selection during domestication in pigs.

Original language	English
Article number	130
Journal	BMC Genomics
Volume	16
Issue number	1
ISSN	1471-2164
DOIs	https://doi.org/10.1186/s12864-015-1330-x
Publication status	Published - 25 Feb 2015

Keywords

Directional selection
Domestication
Pig
Quantitative traits
Selective sweep

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title = "A genome-wide scan for signatures of directional selection in domesticated pigs",

abstract = "Background: Animal domestication involved drastic phenotypic changes driven by strong artificial selection and also resulted in new populations of breeds, established by humans. This study aims to identify genes that show evidence of recent artificial selection during pig domestication. Results: Whole-genome resequencing of 30 individual pigs from domesticated breeds, Landrace and Yorkshire, and 10 Asian wild boars at ~16-fold coverage was performed resulting in over 4.3 million SNPs for 19,990 genes. We constructed a comprehensive genome map of directional selection by detecting selective sweeps using an FST-based approach that detects directional selection in lineages leading to the domesticated breeds and using a haplotype-based test that detects ongoing selective sweeps within the breeds. We show that candidate genes under selection are significantly enriched for loci implicated in quantitative traits important to pig reproduction and production. The candidate gene with the strongest signals of directional selection belongs to group III of the metabolomics glutamate receptors, known to affect brain functions associated with eating behavior, suggesting that loci under strong selection include loci involved in behaviorial traits in domesticated pigs including tameness. Conclusions: We show that a significant proportion of selection signatures coincide with loci that were previously inferred to affect phenotypic variation in pigs. We further identify functional enrichment related to behavior, such as signal transduction and neuronal activities, for those targets of selection during domestication in pigs.",

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author = "Sunjin Moon and Kim, {Tae Hun} and Lee, {Kyung Tai} and Woori Kwak and Taeheon Lee and Lee, {Si Woo} and Kim, {Myung Jick} and Kyuho Cho and Namshin Kim and Chung, {Won Hyong} and Samsun Sung and Taesung Park and Seoae Cho and Groenen, {Martien A.M.} and Rasmus Nielsen and Yuseob Kim and Heebal Kim",

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AU - Moon, Sunjin

AU - Kim, Tae Hun

AU - Lee, Kyung Tai

AU - Kwak, Woori

AU - Lee, Taeheon

AU - Lee, Si Woo

AU - Kim, Myung Jick

AU - Cho, Kyuho

AU - Kim, Namshin

AU - Chung, Won Hyong

AU - Sung, Samsun

AU - Park, Taesung

AU - Cho, Seoae

AU - Groenen, Martien A.M.

AU - Nielsen, Rasmus

AU - Kim, Yuseob

AU - Kim, Heebal

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Y1 - 2015/2/25

N2 - Background: Animal domestication involved drastic phenotypic changes driven by strong artificial selection and also resulted in new populations of breeds, established by humans. This study aims to identify genes that show evidence of recent artificial selection during pig domestication. Results: Whole-genome resequencing of 30 individual pigs from domesticated breeds, Landrace and Yorkshire, and 10 Asian wild boars at ~16-fold coverage was performed resulting in over 4.3 million SNPs for 19,990 genes. We constructed a comprehensive genome map of directional selection by detecting selective sweeps using an FST-based approach that detects directional selection in lineages leading to the domesticated breeds and using a haplotype-based test that detects ongoing selective sweeps within the breeds. We show that candidate genes under selection are significantly enriched for loci implicated in quantitative traits important to pig reproduction and production. The candidate gene with the strongest signals of directional selection belongs to group III of the metabolomics glutamate receptors, known to affect brain functions associated with eating behavior, suggesting that loci under strong selection include loci involved in behaviorial traits in domesticated pigs including tameness. Conclusions: We show that a significant proportion of selection signatures coincide with loci that were previously inferred to affect phenotypic variation in pigs. We further identify functional enrichment related to behavior, such as signal transduction and neuronal activities, for those targets of selection during domestication in pigs.

AB - Background: Animal domestication involved drastic phenotypic changes driven by strong artificial selection and also resulted in new populations of breeds, established by humans. This study aims to identify genes that show evidence of recent artificial selection during pig domestication. Results: Whole-genome resequencing of 30 individual pigs from domesticated breeds, Landrace and Yorkshire, and 10 Asian wild boars at ~16-fold coverage was performed resulting in over 4.3 million SNPs for 19,990 genes. We constructed a comprehensive genome map of directional selection by detecting selective sweeps using an FST-based approach that detects directional selection in lineages leading to the domesticated breeds and using a haplotype-based test that detects ongoing selective sweeps within the breeds. We show that candidate genes under selection are significantly enriched for loci implicated in quantitative traits important to pig reproduction and production. The candidate gene with the strongest signals of directional selection belongs to group III of the metabolomics glutamate receptors, known to affect brain functions associated with eating behavior, suggesting that loci under strong selection include loci involved in behaviorial traits in domesticated pigs including tameness. Conclusions: We show that a significant proportion of selection signatures coincide with loci that were previously inferred to affect phenotypic variation in pigs. We further identify functional enrichment related to behavior, such as signal transduction and neuronal activities, for those targets of selection during domestication in pigs.

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A genome-wide scan for signatures of directional selection in domesticated pigs

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Keywords

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