Genetic pattern and gene localization of polydactyly in Beijing fatty chicken

Genetic pattern and gene localization of polydactyly in Beijing fatty chicken

Polydactyly, a common heritable limb malformation in vertebrates, is characterized by supernumerary digits. In chickens, basic characteristics and rough dominant genes have been explored in past decades; however, the elaborate pattern of inheritance and the determinant gene remain obscure. In this s...

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Veröffentlicht in:PloS one 2017-05, Vol.12 (5), p.e0176113-e0176113
Hauptverfasser: He, Chuan, Chen, Yongcan, Yang, Kaixuan, Zhai, Zhengxiao, Zhao, Wenjing, Liu, Shuyun, Ding, Jinmei, Dai, Ronghua, Yang, Lingyu, Xu, Ke, Zhou, Zhenxiang, Gu, Caiju, Huang, Qizhong, Meng, He
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Schlagworte:
Animals
Biology and Life Sciences
Chickens
Chickens - genetics
Chromosome Mapping
Deoxyribonucleic acid
Digits
DNA
Fingers & toes
Genes
Genes, Dominant
Genetic aspects
Genetic modification
Genome-wide association studies
Genomes
Health aspects
Hybridization
Markers
Medicine and Health Sciences
Mutation
Polydactyly
Polydactyly - genetics
Polymorphism, Single Nucleotide
Poultry
Research and Analysis Methods
Shape recognition
Vertebrates
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container_issue 5
container_start_page e0176113
container_title PloS one
container_volume 12
creator He, Chuan
Chen, Yongcan
Yang, Kaixuan
Zhai, Zhengxiao
Zhao, Wenjing
Liu, Shuyun
Ding, Jinmei
Dai, Ronghua
Yang, Lingyu
Xu, Ke
Zhou, Zhenxiang
Gu, Caiju
Huang, Qizhong
Meng, He
description Polydactyly, a common heritable limb malformation in vertebrates, is characterized by supernumerary digits. In chickens, basic characteristics and rough dominant genes have been explored in past decades; however, the elaborate pattern of inheritance and the determinant gene remain obscure. In this study, different types of polydactylism were classified by the numbers and the shapes of toes, including the newly defined subtypes of B' and G, for the Beijing fatty chicken, a native breed of chicken from China. Through experiments on hybridization, we demonstrated a complete dominant inheritance of polydactyly instead of an incomplete penetrance or genetic modification of the previous conjecture. In particular, by using the F2 population of the five-digit purebred line of Beijing fatty chicken backcrossed to Shiqiza chicken and by using restriction-site associated DNA based markers, we performed a genome-wide association study on the trait of polydactyly. Furthermore, whole genome resequencing strategy was applied to sweep SNPs across the whole genome. An outlier-based Fst approach was employed to search for signatures of selection, and results indicated that the determinant mutation was found in the region ranging from 8.3 Mb to 8.7 Mb, where the polydactyly candidate gene LMBR1 was located. The G/T mutation of rs80659072 was identified to be highly associated with polydactyly in our resequencing and was validated in random samples from an expanded population. Thus, we confirmed that LMBR1 was the causative gene of polydactyly in the Beijing fatty chicken by using GWAS with restriction-site associated DNA based markers and resequencing.
doi_str_mv 10.1371/journal.pone.0176113
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An outlier-based Fst approach was employed to search for signatures of selection, and results indicated that the determinant mutation was found in the region ranging from 8.3 Mb to 8.7 Mb, where the polydactyly candidate gene LMBR1 was located. The G/T mutation of rs80659072 was identified to be highly associated with polydactyly in our resequencing and was validated in random samples from an expanded population. 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In chickens, basic characteristics and rough dominant genes have been explored in past decades; however, the elaborate pattern of inheritance and the determinant gene remain obscure. In this study, different types of polydactylism were classified by the numbers and the shapes of toes, including the newly defined subtypes of B' and G, for the Beijing fatty chicken, a native breed of chicken from China. Through experiments on hybridization, we demonstrated a complete dominant inheritance of polydactyly instead of an incomplete penetrance or genetic modification of the previous conjecture. In particular, by using the F2 population of the five-digit purebred line of Beijing fatty chicken backcrossed to Shiqiza chicken and by using restriction-site associated DNA based markers, we performed a genome-wide association study on the trait of polydactyly. Furthermore, whole genome resequencing strategy was applied to sweep SNPs across the whole genome. An outlier-based Fst approach was employed to search for signatures of selection, and results indicated that the determinant mutation was found in the region ranging from 8.3 Mb to 8.7 Mb, where the polydactyly candidate gene LMBR1 was located. The G/T mutation of rs80659072 was identified to be highly associated with polydactyly in our resequencing and was validated in random samples from an expanded population. Thus, we confirmed that LMBR1 was the causative gene of polydactyly in the Beijing fatty chicken by using GWAS with restriction-site associated DNA based markers and resequencing.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>28489934</pmid><doi>10.1371/journal.pone.0176113</doi><tpages>e0176113</tpages><orcidid>https://orcid.org/0000-0002-8532-2898</orcidid><oa>free_for_read</oa></addata></record>
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subjects Animals
Biology and Life Sciences
Chickens
Chickens - genetics
Chromosome Mapping
Deoxyribonucleic acid
Digits
DNA
Fingers & toes
Genes
Genes, Dominant
Genetic aspects
Genetic modification
Genome-wide association studies
Genomes
Health aspects
Hybridization
Markers
Medicine and Health Sciences
Mutation
Polydactyly
Polydactyly - genetics
Polymorphism, Single Nucleotide
Poultry
Research and Analysis Methods
Shape recognition
Vertebrates
title Genetic pattern and gene localization of polydactyly in Beijing fatty chicken
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