Formation of the genetic structure of cattle populations by single locus DNA fragments depending on their productivity direction and origin

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY

Agricultural Science and Practice Pub Date : 2021-12-20 DOI:10.15407/agrisp8.03.035

A. Shelyov, K. Kopylov, Y. Vdovychenko, S. Kramarenko, O. Kramarenko

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引用次数: 1

Abstract

Aim. Our work was aimed at investigating the specificities in the formation of the genetic structure of populations depending on the productivity direction of cattle, bred in Ukraine, using single locus DNA fragments, and studying the impact of the parental form on genetic polymorphism of modern intensive specialized breeds as a factor. Methods. The following methods were used in the work: veterinary methods (peripheral blood sampling); molecular-genetic meth- ods (the isolation and genotyping of DNA samples of dairy (83 animals), meat (192 animals) and aboriginal (43 ani- mals) cattle, bred in Ukraine, were performed by 10 microsatellite loci from the list, recommended by the International Society for Animal Genetics (ISAG); the complex of statistics methods was used for mathematic-statistical analysis, using modern software. Results. The analysis by 10 microsatellite loci demonstrated the specificities of genetic dif- ferentiation and the similarities between the investigated cattle populations, bred in Ukraine. Our results provide new information about the impact of artificial selection factors on single locus DNA fragments under the specialization of cattle breeds. The impact of the factor of ancestral form on the genetic structure was determined and confirmed by the same polymorphism spectra of the investigated DNA fragments in the maternal and derivative breeds. Another con- firmation was found in the differences, observed in animals of different productivity directions, which are a probable result of the breed-forming process, demonstrated by the results of the mathematic calculations of the data obtained. It was shown that microsatellite DNA loci are highly informative markers of genetic processes, occurring in domestic cattle populations. Conclusions. The specificities in the formation of the genetic structure of populations depending on the productivity direction of animals were determined. The impact of the parental form on genetic polymorphism of modern intensive specialized breeds was noted. It was found that among 10 microsatellite loci, used by us, there were loci in each group of animals, regarding which the hypothesis about their neutrality was reliably rejected accord- ing to the results of Ewens-Watterson test: for dairy cattle (INRA023, ETH3, ETH225, BM1824, BM2113, ETH10 and SPS115), for meat cattle (TGLA122 and ETH225), and for aboriginal cattle (TGLA126, INRA023 and TGLA227). We determined a high level of genetic diversity, remarkable for each investigated cattle population, bred in Ukraine, and general tendencies of differentiation in the selected populations depending on the targeted breeding work, on the level of polymorphism of microsatellite DNA loci (Friedman’s test: P < 0.01), and a similar genetic picture for a number of loci of investigated DNA fragments, which may be related to the history of creating these breeds.

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单基因座DNA片段根据牛的生产力方向和起源形成牛种群的遗传结构

目标我们的工作旨在利用单基因座DNA片段研究在乌克兰饲养的牛的生产力方向决定的群体遗传结构形成的特异性，并研究亲代形式对现代集约专用品种遗传多态性的影响。方法。工作中使用了以下方法：兽医方法（外周血采样）；根据国际动物遗传学学会（ISAG）推荐的10个微卫星位点，对乌克兰饲养的乳制品（83只）、肉类（192只）和土著（43只）牛的DNA样本进行了分子遗传方法（分离和基因分型）；将复杂的统计方法用于数学统计分析，使用现代软件。后果对10个微卫星位点的分析表明，在乌克兰饲养的被调查牛群之间存在遗传差异的特异性和相似性。我们的研究结果提供了关于人工选择因素对小种特化条件下单基因座DNA片段影响的新信息。祖先形态因素对遗传结构的影响是通过所研究的母系和衍生品种DNA片段的相同多态性谱来确定和证实的。在不同生产力方向的动物身上观察到的差异中发现了另一个印证，这是品种形成过程的可能结果，通过对所获得数据的数学计算结果证明了这一点。研究表明，微卫星DNA位点是家牛群体遗传过程的高信息标记。结论。确定了种群遗传结构形成的特异性，这取决于动物的生产力方向。注意到亲代形式对现代集约特化品种遗传多态性的影响。研究发现，在我们使用的10个微卫星基因座中，每组动物中都有一些基因座，根据Ewens-Waterson检验的结果，关于它们的中性性的假设被可靠地拒绝了：奶牛（INRA023、ETH3、ETH225、BM1824、BM2113、ETH10和SPS115）、肉牛（TGLA122和ETH225）和土著牛（TGLA 126、INRA0.23和TGLA227）。我们确定了高水平的遗传多样性，对于在乌克兰繁殖的每一个被调查的牛群体来说都是显著的，并且根据目标育种工作、微卫星DNA基因座的多态性水平（Friedman检验：P<0.01）以及许多被调查的DNA片段的相似遗传图谱，在所选群体中分化的总体趋势，这可能与创造这些品种的历史有关。

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Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-

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