Application of microsatellite analysis in genetic studies of the European (Bison bonasus)

N. Churbakova, V. Kharzinova, O. Koshkina, V. Volkova
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Abstract

Purpose: to summarise the results of the genetic diversity studies of the European bison (Bison bonasus) using microsatellite analysis method.Materials and methods. NCBIs PubMed Database (https://pubmed.ncbi.nlm.nih.gov/) and scientific electronic library eLIBRARY.RU (https://elibrary.ru/).Results. Many studies have been devoted to the maintenance of genetic diversity of the European bison. To date, most studies in the field based on evaluation of pedigree data and on the use of nuclear and mitochondrial markers. Assessment of genetic diversity and population structure, control inbreeding level of captive-bred groups is one of the main tasks in the conservation and reproduction of rare species. This is due to the fact that in such groups there is a decrease in genetic variability, which affects the adaptation and survival of individuals reintroduced to the wild. The first genetic studies of wisent began with the analysis of blood groups in the 1960s. With the discovery of DNA structure and the development of methods for determining its variability, the study of protein polymorphism was replaced by the analysis of the nucleotide sequence in a DNA molecule. Microsatellites, single-nucleotide polymorphisms and mitochondrial DNA have become widespread in studies of the genetic structure of wisent. One of the important criteria for DNA markers, is to reduce the cost of analysis and availability for routine use. In this regard, in our study, we paid more attention to a more cost-effective method, which is the analysis of microsatellite loci. A total of 48 microsatellite loci were successfully amplified for the European bison population. The multiplex panels of microsatellite markers developed for cattle (Bos taurus) were mainly used. At the same time, the spectrum and number of loci in the studies of different authors were not the same. The only exception was the BM1824 locus, which was used by almost all research teams. The number of alleles per locus varied from 1 to 6. Most of the loci considered are characterised by a low number of alleles, which makes it difficult to assess the actual indicator of the level of inbreeding in the European bison populations. In this connection, it is necessary to search for new, previously unexplored, highly polymorphic loci for estimating the genetic diversity of wisent, which will allow not only a more detailed description of the current state of genetic diversity, the level of genomic inbreeding, but also an assessment of the degree of lineage differentiation, and will help to identify the presence of hybridisation with the North American bison (Bison bison bison) and the cattle (Bos taurus).
微卫星分析在欧洲野牛遗传研究中的应用
目的:总结使用微卫星分析方法对欧洲野牛(Bison bonasus)进行遗传多样性研究的结果。美国国家生物信息局 PubMed 数据库 (https://pubmed.ncbi.nlm.nih.gov/) 和科学电子图书馆 eLIBRARY.RU (https://elibrary.ru/)。结果。许多研究都致力于维护欧洲野牛的遗传多样性。迄今为止,该领域的大多数研究都是基于对血统数据的评估以及对核标记和线粒体标记的使用。评估遗传多样性和种群结构、控制人工饲养群体的近亲繁殖水平是保护和繁殖稀有物种的主要任务之一。这是因为在这类群体中,遗传变异性会降低,从而影响重新引入野外的个体的适应性和存活率。最早的猕猴遗传研究始于 20 世纪 60 年代的血型分析。随着 DNA 结构的发现和确定其变异性方法的发展,蛋白质多态性的研究被 DNA 分子中核苷酸序列的分析所取代。微卫星、单核苷酸多态性和线粒体 DNA 已广泛应用于智人遗传结构的研究。DNA 标记的一个重要标准是降低分析成本和日常使用的可用性。在这方面,我们在研究中更关注一种更具成本效益的方法,即微卫星位点分析。我们成功扩增了欧洲野牛种群的 48 个微卫星位点。主要使用了为牛(Bos taurus)开发的多重微卫星标记板。同时,不同作者研究中的位点谱系和数量也不尽相同。唯一的例外是 BM1824 位点,几乎所有研究小组都使用了该位点。每个位点的等位基因数从 1 到 6 不等。所考虑的大多数位点的等位基因数量较少,因此很难评估欧洲野牛种群近亲繁殖水平的实际指标。因此,有必要寻找新的、以前未探索过的、多态性高的位点来估计野牛的遗传多样性,这样不仅可以更详细地描述遗传多样性的现状、基因组近亲繁殖的程度,还可以评估血统分化的程度,并有助于确定是否存在与北美野牛(Bison bison)和牛(Bos taurus)杂交的情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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