Genomic signal selection analysis reveals genes related to the lambing trait of Hotan sheep.

IF 2.4 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Animal Bioscience Pub Date : 2024-11-06 DOI:10.5713/ab.24.0336

XinKun Wang, Wei Li, QiaoYan Huang, HuiPing Sun, LeXiao Zhu, RuoHuai Gu, Feng Xing

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Abstract

Objective: Lambing in ewes is a complex and crucial aspect of sheep production that directly influences economic viability and production efficiency. In the present study, we analyzed the genomes of single lamb (SLE) and twin lamb (TLE) Hotan sheep to elucidate the genetic mechanisms underlying lamb production in Hotan sheep.

Methods: In this study, we used genome-wide resequencing to analyze the genomes of Hotan sheep exhibiting SLE and TLE traits. To identify the population genetic structure and linkage disequilibrium associated with SLE and TLE traits, we employed two complementary genome selection signals: the interpopulation genetic differentiation index (FST) and nucleotide diversity (Pi). Subsequently, we performed gene annotation and enrichment analyses of the selected regions of the obtained genome.

Results: Our analysis generated 801 Gb of sequence data, from which 31,864,651 high-quality single nucleotide polymorphic loci were identified. We identified 290 selected regions and 332 genes across the Hotan sheep genome by using two widely adopted selective scanning detection methods (FST statistics and Piratio). Functional annotation and enrichment analysis of these genes identified 13 genes associated with the lambing rate, which were enriched in pathways such as the transforming growth factor-β (TGF-β) signaling pathway (BMPR2, ID2, SMAD7, THBS1, and RBX1), renal cell carcinoma (PAK1, ELOC), inositol phosphate metabolism (PLCZ), non-homologous terminal junction (RAD50), ABC transporters (ABCC4), and the NET pathway (H2B, H4, and H2A).

Conclusion: This study employed selective elimination analysis to identify candidate genes involved in the regulation of lambing trait in Hotan sheep. By investigating the molecular mechanisms underlying lambing rate in Hotan sheep, we developed molecular markers for twin lambing to enhance reproductive performance and promote the conservation and development of outstanding genetic resources in local Xinjiang sheep.

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基因组信号选择分析揭示了与和田羊产羔性状有关的基因。

目的：母羊产羔是绵羊生产中一个复杂而又关键的环节，它直接影响着经济效益和生产效率。在本研究中，我们分析了单羔（SLE）和双羔（TLE）和田羊的基因组，以阐明和田羊产羔的遗传机制：在这项研究中，我们利用全基因组重测序技术分析了表现出SLE和TLE性状的和田羊的基因组。为了确定与系统性红斑狼疮和TLE性状相关的种群遗传结构和连锁不平衡，我们采用了两种互补的基因组选择信号：种群间遗传分化指数（FST）和核苷酸多样性（Pi）。随后，我们对所获得基因组的选定区域进行了基因注释和富集分析：我们的分析产生了 801 Gb 的序列数据，从中鉴定出 31,864,651 个高质量的单核苷酸多态性位点。我们利用两种广泛采用的选择性扫描检测方法（FST 统计法和 Piratio 法）在和田羊基因组中鉴定了 290 个选择区和 332 个基因。对这些基因的功能注释和富集分析发现了 13 个与产羔率相关的基因，这些基因富集在转化生长因子-β（TGF-β）信号通路（BMPR2、ID2、SMAD7、THBS1 和 RBX1）、肾细胞癌（PAK1、ELOC）、磷酸肌醇代谢（PLCZ）、非同源末端连接（RAD50）、ABC 转运体（ABCC4）和 NET 通路（H2B、H4 和 H2A）。结论本研究采用选择性淘汰分析法鉴定了参与调控和田羊产羔性状的候选基因。通过研究和田羊产羔率的分子机制，开发出双胎产羔的分子标记，从而提高和田羊的繁殖性能，促进新疆地方绵羊优秀遗传资源的保护和开发。

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