Identification of Genomic Structural Variations in Xinjiang Brown Cattle by Deep Sequencing and Their Association with Body Conformation Traits
Dan Wang, Tao Zhang, Menghua Zhang, Qiuming Chen, Mengjie Yan, Shengchao Ma, Jiangkun Wang, Xiaoxue Zhang, Kailun Ma, Lei Xu, Xixia Huang

TL;DR
This study identifies genomic structural variations in Xinjiang Brown cattle and links them to traits like body conformation and milk production.
Contribution
The study reports high-frequency structural variations and their associations with body conformation traits in Xinjiang Brown cattle.
Findings
71,668 structural variations were identified, with deletions being the most common type.
58 structural variations were significantly associated with five body conformation traits.
Nine candidate genes were identified as potentially regulating body conformation traits.
Abstract
Xinjiang Brown cattle is an elite dual-purpose breed (raised for dairy and beef) developed in China. To elucidate its genomic architecture, we conducted whole-genome resequencing of 169 Xinjiang Brown cattle, followed by structural variation (SV) detection and a genome-wide association study (GWAS). We identified 71,668 SVs, among which deletions were the most prevalent, followed by translocations, inversions, duplications, and insertions. We further identified 1286 high-frequency SVs involving 2016 protein-coding genes. Through functional enrichment analysis of these genes, we revealed associations of genetic variation at genomic positions near genes implicated in immune response and disease resistance (NFKBIZ and PTPRT), growth and development (HDAC4 and MEF2A), and milk production (TP63, FABP4, and MEF2A). GWAS analysis of 31 body conformation traits revealed 58 SVs significantly…
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Taxonomy
TopicsCancer-related molecular mechanisms research · Genetic and phenotypic traits in livestock · Genetic Mapping and Diversity in Plants and Animals
