Maintaining Breed Integrity: Successful Introgression of the SLICK1 Allele into the Holstein Breed.

IF 3 2区 生物学 Q2 EVOLUTIONARY BIOLOGY Journal of Heredity Pub Date : 2024-10-14 DOI:10.1093/jhered/esae057
Gabriel A Zayas, Serdal Dikmen, Raluca G Mateescu, Peter J Hansen
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Abstract

This study evaluated the effectiveness of genetic introgression of the SLICK1 allele derived from Senepol cattle into the Holstein breed to enhance thermotolerance. The SLICK1 allele, located in PRLR gene, confers a short and sleek coat that is inherited as a simple dominant phenotype. Approximately 40 years ago, the University of Florida initiated efforts to introgress this allele into the Holstein population. Here we tracked the introgression of the SLICK1 allele using a medium-density genotyping array and a reference population of both breeds (50 Holstein, 46 Senepol). Among the 31 SLICK1+ Holsteins, there was 15.25% ± 11.11% (mean ± SD) Senepol ancestry on BTA20. Holsteins at the University of Florida descended from slick matings that did not inherit the SLICK1 allele (n=9) exhibited no Senepol ancestry. A secondary introgression of Senepol genetics in SLICK1+ animals was found on BTA4, spanning 54 markers and 15 genes, with 26.67% Senepol ancestry. This region, previously linked to heat stress adaptation, suggests that the introgression extends beyond the SLICK1 allele to incorporate additional beneficial genetics for thermal stress adaptation. These findings indicate that deliberate introgression of the SLICK1 allele enhances specific traits and potentially introduces other adaptive genetic variations. The study demonstrates the successful use of genetic interventions to improve livestock resilience against environmental challenges without significantly disrupting the recipient breed's genetic structure. The introgression of the SLICK1 allele serves as a model for breeding programs aimed at optimizing animal welfare and productivity in the face of global climate change while maintaining breed integrity.

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保持品种完整性:将 SLICK1 等位基因成功引入荷斯坦品种。
本研究评估了将源自塞内波尔牛的 SLICK1 等位基因基因导入荷斯坦品种以提高耐热性的效果。SLICK1等位基因位于PRLR基因中,具有短而光滑的被毛,是一种简单的显性遗传表型。大约 40 年前,佛罗里达大学开始努力将这一等位基因引入荷斯坦种群。在这里,我们使用中密度基因分型阵列和两个品种的参考群体(50 头荷斯坦牛、46 头塞内波尔牛)跟踪 SLICK1 等位基因的导入情况。在 31 头 SLICK1+ Holsteins 中,BTA20 上有 15.25% ± 11.11%(平均 ± SD)的 Senepol 血统。佛罗里达大学的荷斯坦牛是由没有遗传到 SLICK1 等位基因的滑溜交配后代(9 头)繁衍的,没有塞内波尔血统。在BTA4上发现了SLICK1+动物中Senepol基因的二次导入,跨越54个标记和15个基因,有26.67%的Senepol血统。这一区域以前曾与热应激适应有关,这表明引种超出了 SLICK1 等位基因的范围,纳入了更多对热应激适应有益的基因。这些研究结果表明,SLICK1等位基因的有意导入可增强特定性状,并可能引入其他适应性遗传变异。这项研究表明,在不严重破坏受体品种遗传结构的情况下,成功利用遗传干预来提高牲畜对环境挑战的适应能力。SLICK1等位基因的导入为育种计划提供了一个范例,该育种计划旨在优化动物福利和生产力,以应对全球气候变化,同时保持品种的完整性。
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来源期刊
Journal of Heredity
Journal of Heredity 生物-遗传学
CiteScore
5.20
自引率
6.50%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Over the last 100 years, the Journal of Heredity has established and maintained a tradition of scholarly excellence in the publication of genetics research. Virtually every major figure in the field has contributed to the journal. Established in 1903, Journal of Heredity covers organismal genetics across a wide range of disciplines and taxa. Articles include such rapidly advancing fields as conservation genetics of endangered species, population structure and phylogeography, molecular evolution and speciation, molecular genetics of disease resistance in plants and animals, genetic biodiversity and relevant computer programs.
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