通过 Illumina Ovine SNP50 BeadChip 分析柯尔克孜绵羊的种群结构和选择特征

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ruizhi Yang, Zhipeng Han, Wen Zhou, Xuejiao Li, Xuechen Zhang, Lijun Zhu, Jieru Wang, Xiaopeng Li, Cheng-long Zhang, Yahui Han, Lianrui Li, Shudong Liu
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引用次数: 0

摘要

目的 通过评估柯尔克孜绵羊(KIR)的遗传多样性和相关选择性性状,揭示绵羊适应帕米尔高原环境的机制。方法 本研究利用了 Illumina Ovine SNP50 BeadChip 数据,这些数据来自居住在帕米尔高原的柯尔克孜羊、居住在塔克拉玛干沙漠的伊拉黑羊(QBS)以及常见的引进品种,包括多尔帕羊(DOR)、萨福克羊(SUF)和胡羊(HU)。我们采用主成分分析、系统进化分析、种群混杂分析、亲缘关系矩阵分析、连锁不平衡分析和选择性特征分析等方法对数据进行了分析。我们采用了四种方法进行选择性特征分析:固定指数(Fst)、跨种群扩展同源性(XP-EHH)、综合单倍型得分(iHS)和核苷酸多样性(Pi)。这些方法旨在揭示柯尔克孜绵羊种质资源的遗传机制,提高其生产性状,并探索其对挑战性环境条件的适应性。结果 测试结果揭示了与恶劣环境条件下绵羊的适应性状和生长特征相关的潜在选择信号,并对相应的基因进行了注释。这些基因包含多种功能,如与高原、寒冷和干旱环境相关的适应性(ESTAA1、UBE3D、TLE4、NXPH1、MAT2B、PPARGC1A、VEGFA、TBX15 和 PLXNA4)、羊毛性状(LMO3、TRPS1、EPHA5)、体型性状(PLXNA2、EFNA5)、繁殖性状(PPP3CA、PDHA2、NTRK2)和免疫性(GATA3)。结论 我们的研究发现了与柯尔克孜绵羊的生产性状和对帕米尔高原恶劣环境的适应有关的候选基因。这些发现为当地绵羊育种计划提供了宝贵的资源。本研究的目的是为柯尔克孜绵羊产业的可持续发展提供有价值的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Population structure and selective signature of Kirghiz sheep by Illumina Ovine SNP50 BeadChip
Objective By assessing the genetic diversity and associated selective traits of Kirghiz sheep (KIR), we aim to uncover the mechanisms that contribute to sheep’s adaptability to the Pamir Plateau environment. Methods This study utilized Illumina Ovine SNP50 BeadChip data from KIR residing in the Pamir Plateau, Qira Black sheep (QBS) inhabiting the Taklamakan Desert, and commonly introduced breeds including Dorper sheep (DOR), Suffolk sheep (SUF), and Hu sheep (HU). The data was analyzed using principal component analysis, phylogenetic analysis, population admixture analysis, kinship matrix analysis, linkage disequilibrium analysis, and selective signature analysis. We employed four methods for selective signature analysis: fixation index (Fst), cross-population extended homozygosity (XP-EHH), integrated haplotype score (iHS), and nucleotide diversity (Pi). These methods aim to uncover the genetic mechanisms underlying the germplasm resources of Kirghiz sheep, enhance their production traits, and explore their adaptation to challenging environmental conditions. Results The test results unveiled potential selective signals associated with adaptive traits and growth characteristics in sheep under harsh environmental conditions, and annotated the corresponding genes accordingly. These genes encompass various functionalities such as adaptations associated with plateau, cold, and arid environment (ETAA1, UBE3D, TLE4, NXPH1, MAT2B, PPARGC1A, VEGFA, TBX15 and PLXNA4), wool traits (LMO3, TRPS1, EPHA5), body size traits (PLXNA2, EFNA5), reproductive traits (PPP3CA, PDHA2, NTRK2), and immunity (GATA3). Conclusion Our study identified candidate genes associated with the production traits and adaptation to the harsh environment of the Pamir Plateau in Kirghiz sheep. These findings provide valuable resources for local sheep breeding programs. The objective of this study is to offer valuable insights for the sustainable development of the Kirghiz sheep industry.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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