A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.

A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.

The number of vertebrae is an economically important trait that affects carcass length and meat production in pigs. A major quantitative trait locus (QTL) for thoracic vertebral number has been repeatedly identified on pig chromosome (SSC) 7. To dissect the genetic basis of the major locus, we herei...

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Main Authors: Yin Fan, Yuyun Xing, Zhiyan Zhang, Huashui Ai, Zixuan Ouyang, Jing Ouyang, Ming Yang, Pinghua Li, Yijie Chen, Jun Gao, Lin Li, Lusheng Huang, Jun Ren
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3634791?pdf=render
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spelling doaj-b29121daed984d87bb6218a4eaa4807a2020-11-25T01:15:27ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0184e6253410.1371/journal.pone.0062534A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.Yin FanYuyun XingZhiyan ZhangHuashui AiZixuan OuyangJing OuyangMing YangPinghua LiYijie ChenJun GaoLin LiLusheng HuangJun RenThe number of vertebrae is an economically important trait that affects carcass length and meat production in pigs. A major quantitative trait locus (QTL) for thoracic vertebral number has been repeatedly identified on pig chromosome (SSC) 7. To dissect the genetic basis of the major locus, we herein genotyped a large sample of animals from 3 experimental populations of Chinese and Western origins using 60K DNA chips. Genome-wide association studies consistently identified the locus across the 3 populations and mapped the locus to a 947-Kb region on SSC7. An identical-by-descent sharing assay refined the locus to a 100-Kb segment that harbors only two genes including VRTN and SYNDIG1L. Of them, VRNT has been proposed as a strong candidate of the major locus in Western modern breeds. Further, we resequenced the VRTN gene using DNA samples of 35 parental animals with known QTL genotypes by progeny testing. Concordance tests revealed 4 candidate causal variants as their genotypes showed the perfect segregation with QTL genotypes of the tested animals. An integrative analysis of evolutional constraints and functional elements supported two VRTN variants in a complete linkage disequilibrium phase as the most likely causal mutations. The promising variants significantly affect the number of thoracic vertebrae (one vertebra) in large scale outbred animals, and are segregating at rather high frequencies in Western pigs and at relatively low frequencies in a number of Chinese breeds. Altogether, we show that VRTN variants are significantly associated with the number of thoracic vertebrae in both Chinese and Western pigs. The finding advances our understanding of the genetic architecture of the vertebral number in pigs. Furthermore, our finding is of economical importance as it provides a robust breeding tool for the improvement of vertebral number and meat production in both Chinese indigenous pigs and Western present-day commercial pigs.http://europepmc.org/articles/PMC3634791?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Yin Fan
Yuyun Xing
Zhiyan Zhang
Huashui Ai
Zixuan Ouyang
Jing Ouyang
Ming Yang
Pinghua Li
Yijie Chen
Jun Gao
Lin Li
Lusheng Huang
Jun Ren
spellingShingle Yin Fan
Yuyun Xing
Zhiyan Zhang
Huashui Ai
Zixuan Ouyang
Jing Ouyang
Ming Yang
Pinghua Li
Yijie Chen
Jun Gao
Lin Li
Lusheng Huang
Jun Ren
A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.
PLoS ONE
author_facet Yin Fan
Yuyun Xing
Zhiyan Zhang
Huashui Ai
Zixuan Ouyang
Jing Ouyang
Ming Yang
Pinghua Li
Yijie Chen
Jun Gao
Lin Li
Lusheng Huang
Jun Ren
author_sort Yin Fan
title A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.
title_short A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.
title_full A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.
title_fullStr A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.
title_full_unstemmed A further look at porcine chromosome 7 reveals VRTN variants associated with vertebral number in Chinese and Western pigs.
title_sort further look at porcine chromosome 7 reveals vrtn variants associated with vertebral number in chinese and western pigs.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description The number of vertebrae is an economically important trait that affects carcass length and meat production in pigs. A major quantitative trait locus (QTL) for thoracic vertebral number has been repeatedly identified on pig chromosome (SSC) 7. To dissect the genetic basis of the major locus, we herein genotyped a large sample of animals from 3 experimental populations of Chinese and Western origins using 60K DNA chips. Genome-wide association studies consistently identified the locus across the 3 populations and mapped the locus to a 947-Kb region on SSC7. An identical-by-descent sharing assay refined the locus to a 100-Kb segment that harbors only two genes including VRTN and SYNDIG1L. Of them, VRNT has been proposed as a strong candidate of the major locus in Western modern breeds. Further, we resequenced the VRTN gene using DNA samples of 35 parental animals with known QTL genotypes by progeny testing. Concordance tests revealed 4 candidate causal variants as their genotypes showed the perfect segregation with QTL genotypes of the tested animals. An integrative analysis of evolutional constraints and functional elements supported two VRTN variants in a complete linkage disequilibrium phase as the most likely causal mutations. The promising variants significantly affect the number of thoracic vertebrae (one vertebra) in large scale outbred animals, and are segregating at rather high frequencies in Western pigs and at relatively low frequencies in a number of Chinese breeds. Altogether, we show that VRTN variants are significantly associated with the number of thoracic vertebrae in both Chinese and Western pigs. The finding advances our understanding of the genetic architecture of the vertebral number in pigs. Furthermore, our finding is of economical importance as it provides a robust breeding tool for the improvement of vertebral number and meat production in both Chinese indigenous pigs and Western present-day commercial pigs.
url http://europepmc.org/articles/PMC3634791?pdf=render
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