A combination of genome-wide association study and selection signature analysis dissects the genetic architecture underlying bone traits in chickens

生物 全基因组关联研究 遗传学 候选基因 单核苷酸多态性 遗传关联 遗传建筑学 纯合性运行 数量性状位点 基因 基因型
作者
Y.D. Li,Xianjing Liu,Zhenhui Li,W.J. Wang,Y.M. Li,Zhiping Cao,Ping Luan,Fan Xiao,Ruifang Li‐Gao,Huaishun Guo,N. Wang,Jijun Li,S.Z. Wang
出处
期刊:Animal [Elsevier BV]
卷期号:15 (8): 100322-100322 被引量:21
标识
DOI:10.1016/j.animal.2021.100322
摘要

The bones of chicken play an important role in supporting and protecting the body. The growth and development of bones have a substantial influence on the health and production performance in chickens. However, genetic architecture underlying chicken bone traits is not well understood. The objectives of this study are to dissect the genetic basis of bone traits in chickens and to identify valuable genes and genetic markers for chicken breeding. We performed a combination of genome-wide association study (GWAS) and selection signature analysis (fixation index values and nucleotide diversity ratios) in an F2 crossbred experimental population with different genetic backgrounds (broiler × layer) to identify candidate genes and significant variants related to femur, shank, keel length, chest width, metatarsal claw weight, metatarsal length, and metatarsal circumference. A total of 545 individuals were genotyped based on the whole genome re-sequencing method (26 F0 individuals were re-sequenced at 10 × coverage; 519 F2 individuals were re-sequenced at 3 × coverage). A total of 2 028 112 single-nucleotide polymorphisms (SNPs) remained to carry out analysis after quality control and imputation. The integration of GWAS and selection signature analysis indicated that all significant SNPs responsible for bone traits were mainly localized on chicken chromosomes 1, 4, and 27. Finally, we identified 21 positional candidate genes that might regulate chicken bone growth and development, including LRCH1, RB1, FNDC3A, MLNR, CAB39L, FOXO1, LHFP, TRPC4, POSTN, SMAD9, RBPJ, PPARGC1A, SLIT2, NCAPG, NKX3-2, CPZ, SPOP, NGFR, SOST, ZNF652, and HOXB3. Additionally, an array of uncharacterized genes was identified. The findings provide an in-depth understanding of the genetic architecture of chicken bone traits and offer a molecular basis for applying genomics in practical chicken breeding.

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