Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis

Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis

Abstract ulked Segregant Analysis (BSA) is a rapid strategy for identifying genetic markers in specific regions of the phenotypical population and it has been widely used for QTLs mapping in smaller mixed F2 and F3 populations. We applied a modified BSA method to assessed genome-wide homozygous and...

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Main Authors: Yun Zhu, Liyun Han, Peng Li, Xiaolong Kang, Xingang Dan, Yun Ma, Yuangang Shi
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-91101-w
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spelling doaj-477bd8600cbb453aae6d9114349a70932021-06-06T11:34:35ZengNature Publishing GroupScientific Reports2045-23222021-06-011111910.1038/s41598-021-91101-wInvestigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysisYun Zhu0Liyun Han1Peng Li2Xiaolong Kang3Xingang Dan4Yun Ma5Yuangang Shi6School of Agriculture, Ningxia UniversityPingjibao Dairy Farm, Ningxia Agricultural Reclamation Helanshan Dairy Co. LtdSchool of Agriculture, Ningxia UniversitySchool of Agriculture, Ningxia UniversitySchool of Agriculture, Ningxia UniversitySchool of Agriculture, Ningxia UniversitySchool of Agriculture, Ningxia UniversityAbstract ulked Segregant Analysis (BSA) is a rapid strategy for identifying genetic markers in specific regions of the phenotypical population and it has been widely used for QTLs mapping in smaller mixed F2 and F3 populations. We applied a modified BSA method to assessed genome-wide homozygous and heterozygous linkage patterns in the Chinese Wagyu Beef Cattle F2/F3 mixed population. Two overlapped regions from F2 and F3 populations on autosomes were found with high-density heterozygote alleles between high and low intramuscular fat groups. Regions from 24.8 M ~ 29.6 M of chromosome 23 were identified as most significantly correlated to the intramuscular fat in our samples. We also identified other 4 potential loci on chromosomes 5, 9, 15, and 21 correlated with Intramuscular fat. This study provided a novel low-cost method for QTLs mapping and identify molecular markers of phenotypical changes in a small mixed population.https://doi.org/10.1038/s41598-021-91101-w
collection DOAJ
language English
format Article
sources DOAJ
author Yun Zhu
Liyun Han
Peng Li
Xiaolong Kang
Xingang Dan
Yun Ma
Yuangang Shi
spellingShingle Yun Zhu
Liyun Han
Peng Li
Xiaolong Kang
Xingang Dan
Yun Ma
Yuangang Shi
Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis
Scientific Reports
author_facet Yun Zhu
Liyun Han
Peng Li
Xiaolong Kang
Xingang Dan
Yun Ma
Yuangang Shi
author_sort Yun Zhu
title Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis
title_short Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis
title_full Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis
title_fullStr Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis
title_full_unstemmed Investigation of genetic markers for intramuscular fat in the hybrid Wagyu cattle with bulked segregant analysis
title_sort investigation of genetic markers for intramuscular fat in the hybrid wagyu cattle with bulked segregant analysis
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-06-01
description Abstract ulked Segregant Analysis (BSA) is a rapid strategy for identifying genetic markers in specific regions of the phenotypical population and it has been widely used for QTLs mapping in smaller mixed F2 and F3 populations. We applied a modified BSA method to assessed genome-wide homozygous and heterozygous linkage patterns in the Chinese Wagyu Beef Cattle F2/F3 mixed population. Two overlapped regions from F2 and F3 populations on autosomes were found with high-density heterozygote alleles between high and low intramuscular fat groups. Regions from 24.8 M ~ 29.6 M of chromosome 23 were identified as most significantly correlated to the intramuscular fat in our samples. We also identified other 4 potential loci on chromosomes 5, 9, 15, and 21 correlated with Intramuscular fat. This study provided a novel low-cost method for QTLs mapping and identify molecular markers of phenotypical changes in a small mixed population.
url https://doi.org/10.1038/s41598-021-91101-w
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AT pengli investigationofgeneticmarkersforintramuscularfatinthehybridwagyucattlewithbulkedsegregantanalysis
AT xiaolongkang investigationofgeneticmarkersforintramuscularfatinthehybridwagyucattlewithbulkedsegregantanalysis
AT xingangdan investigationofgeneticmarkersforintramuscularfatinthehybridwagyucattlewithbulkedsegregantanalysis
AT yunma investigationofgeneticmarkersforintramuscularfatinthehybridwagyucattlewithbulkedsegregantanalysis
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