Use of high-density SNP data to identify patterns of diversity and signatures of selection in broiler chickens

John J. Stainton; Brian Charlesworth; Christopher Haley; Andreas Kranis; Kellie Watson; Pamela Wiener

doi:10.1111/jbg.12228

Use of high-density SNP data to identify patterns of diversity and signatures of selection in broiler chickens

John J. Stainton, Brian Charlesworth, Christopher Haley, Andreas Kranis, Kellie Watson, Pamela Wiener

Research output: Contribution to journal › Article › peer-review

Abstract

The development of broiler chickens over the last 70 years has been accompanied by large phenotypic changes, so that the resulting genomic signatures of selection should be detectable by current statistical techniques with sufficiently dense genetic markers. Using two approaches, this study analysed high-density SNP data from a broiler chicken line to detect low-diversity genomic regions characteristic of past selection. Seven regions with zero diversity were identified across the genome. Most of these were very small and did not contain many genes. In addition, fifteen regions were identified with diversity increasing asymptotically from a low level. These regions were larger and thus generally included more genes. Several candidate genes for broiler traits were found within these ‘regression regions’, including IGF1, GPD2 and MTNR1AI. The results suggest that the identification of zero-diversity regions is too restrictive for characterizing regions under selection, but that regions showing patterns of diversity along the chromosome that are consistent with selective sweeps contain a number of genes that are functional candidates for involvement in broiler development. Many regions identified in this study overlap or are close to regions identified in layer chicken populations, possibly due to their shared precommercialization history or to shared selection pressures between broilers and layers.

Original language	English
Pages (from-to)	87-97
Journal	Journal of Animal Breeding and Genetics
Volume	134
Issue number	2
Early online date	28 Jun 2016
DOIs	https://doi.org/10.1111/jbg.12228
Publication status	Published - Apr 2017

Keywords / Materials (for Non-textual outputs)

Axiom chicken genotyping array
hitchhiking
poultry
regression method
selection mapping

Access to Document

10.1111/jbg.12228

Stainton_et_al-2016-Zeitschrift_f-r_Tierz-chtung_und_Z-chtungsbiologie
This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
Final published version, 246 KBLicence: Creative Commons: Attribution (CC-BY)

ISP1: Analysis and prediction in complex animal systems
Tenesa, A. (Principal Investigator), Archibald, A. (Co-investigator), Beard, P. (Co-investigator), Bishop, S. (Co-investigator), Bronsvoort, M. (Co-investigator), Burt, D. (Co-investigator), Freeman, T. (Co-investigator), Haley, C. (Co-investigator), Hocking, P. (Co-investigator), Houston, R. (Co-investigator), Hume, D. (Co-investigator), Joshi, A. (Co-investigator), Law, A. (Co-investigator), Michoel, T. (Co-investigator), Summers, K. (Co-investigator), Vernimmen, D. (Co-investigator), Watson, M. (Co-investigator), Wiener, P. (Co-investigator), Wilson, A. (Co-investigator), Woolliams, J. (Co-investigator), Ait-Ali, T. (Researcher), Barnett, M. (Researcher), Carlisle, A. (Researcher), Finlayson, H. (Researcher), Haga, I. (Researcher), Karavolos, M. (Researcher), Matika, O. (Researcher), Paterson, T. (Researcher), Paton, B. (Researcher), Pong-Wong, R. (Researcher), Robert, C. (Researcher) & Robertson, G. (Researcher)
BBSRC
1/04/12 → 31/03/17
Project: Research
Selection mapping methods and aplication: studentship s mcintyre
Wiener, P. (Principal Investigator)
BBSRC
1/04/10 → 31/12/14
Project: Research

Kellie Watson
- Royal (Dick) School of Veterinary Studies - Deputy Director - CTLGH
Person: Academic: Research Active
Pam Wiener
- pam.wienerroslin.ed.acuk
- Royal (Dick) School of Veterinary Studies - Reader
- Global Academy of Agriculture and Food Systems
Person: Academic: Research Active

Cite this

@article{f971e19ffbc04f6bb2ef55d795bd2b0d,

title = "Use of high-density SNP data to identify patterns of diversity and signatures of selection in broiler chickens",

abstract = "The development of broiler chickens over the last 70 years has been accompanied by large phenotypic changes, so that the resulting genomic signatures of selection should be detectable by current statistical techniques with sufficiently dense genetic markers. Using two approaches, this study analysed high-density SNP data from a broiler chicken line to detect low-diversity genomic regions characteristic of past selection. Seven regions with zero diversity were identified across the genome. Most of these were very small and did not contain many genes. In addition, fifteen regions were identified with diversity increasing asymptotically from a low level. These regions were larger and thus generally included more genes. Several candidate genes for broiler traits were found within these {\textquoteleft}regression regions{\textquoteright}, including IGF1, GPD2 and MTNR1AI. The results suggest that the identification of zero-diversity regions is too restrictive for characterizing regions under selection, but that regions showing patterns of diversity along the chromosome that are consistent with selective sweeps contain a number of genes that are functional candidates for involvement in broiler development. Many regions identified in this study overlap or are close to regions identified in layer chicken populations, possibly due to their shared precommercialization history or to shared selection pressures between broilers and layers.",

keywords = "Axiom chicken genotyping array, hitchhiking, poultry, regression method, selection mapping",

author = "Stainton, {John J.} and Brian Charlesworth and Christopher Haley and Andreas Kranis and Kellie Watson and Pamela Wiener",

year = "2017",

month = apr,

doi = "10.1111/jbg.12228",

language = "English",

volume = "134",

pages = "87--97",

journal = "Journal of Animal Breeding and Genetics",

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AU - Stainton, John J.

AU - Charlesworth, Brian

AU - Haley, Christopher

AU - Kranis, Andreas

AU - Watson, Kellie

AU - Wiener, Pamela

PY - 2017/4

Y1 - 2017/4

N2 - The development of broiler chickens over the last 70 years has been accompanied by large phenotypic changes, so that the resulting genomic signatures of selection should be detectable by current statistical techniques with sufficiently dense genetic markers. Using two approaches, this study analysed high-density SNP data from a broiler chicken line to detect low-diversity genomic regions characteristic of past selection. Seven regions with zero diversity were identified across the genome. Most of these were very small and did not contain many genes. In addition, fifteen regions were identified with diversity increasing asymptotically from a low level. These regions were larger and thus generally included more genes. Several candidate genes for broiler traits were found within these ‘regression regions’, including IGF1, GPD2 and MTNR1AI. The results suggest that the identification of zero-diversity regions is too restrictive for characterizing regions under selection, but that regions showing patterns of diversity along the chromosome that are consistent with selective sweeps contain a number of genes that are functional candidates for involvement in broiler development. Many regions identified in this study overlap or are close to regions identified in layer chicken populations, possibly due to their shared precommercialization history or to shared selection pressures between broilers and layers.

AB - The development of broiler chickens over the last 70 years has been accompanied by large phenotypic changes, so that the resulting genomic signatures of selection should be detectable by current statistical techniques with sufficiently dense genetic markers. Using two approaches, this study analysed high-density SNP data from a broiler chicken line to detect low-diversity genomic regions characteristic of past selection. Seven regions with zero diversity were identified across the genome. Most of these were very small and did not contain many genes. In addition, fifteen regions were identified with diversity increasing asymptotically from a low level. These regions were larger and thus generally included more genes. Several candidate genes for broiler traits were found within these ‘regression regions’, including IGF1, GPD2 and MTNR1AI. The results suggest that the identification of zero-diversity regions is too restrictive for characterizing regions under selection, but that regions showing patterns of diversity along the chromosome that are consistent with selective sweeps contain a number of genes that are functional candidates for involvement in broiler development. Many regions identified in this study overlap or are close to regions identified in layer chicken populations, possibly due to their shared precommercialization history or to shared selection pressures between broilers and layers.

KW - Axiom chicken genotyping array

KW - hitchhiking

KW - poultry

KW - regression method

KW - selection mapping

U2 - 10.1111/jbg.12228

DO - 10.1111/jbg.12228

M3 - Article

C2 - 27349343

SN - 0931-2668

VL - 134

SP - 87

EP - 97

JO - Journal of Animal Breeding and Genetics

JF - Journal of Animal Breeding and Genetics

IS - 2

ER -

Use of high-density SNP data to identify patterns of diversity and signatures of selection in broiler chickens

Abstract

Keywords / Materials (for Non-textual outputs)

Access to Document

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Projects

ISP1: Analysis and prediction in complex animal systems

Selection mapping methods and aplication: studentship s mcintyre

Profiles

Kellie Watson

Pam Wiener

Cite this