Analysis of genotyping features of bovine cattle individuals at the CSN2 locus using ACRS-PCR methods

Animal Science and Food Technology Pub Date : 2023-04-07 DOI:10.31548/animal.2.2023.44

R. Kulibaba, M. Sakhatskyi, Y. Liashenko

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Abstract

In the context of solving the problem of obtaining high quality dairy products from livestock, the issue of determining the type of beta-casein (A1 and A2) in the protein fraction of milk becomes essential. Purpose – to analyse the use of ACRS-PCR methods for differentiation of A1 and A2 alleles of bovine beta-casein locus. Genotyping features were analysed using the artificially created restriction site polymerase chain reaction method utilising TaqI and DdeI restriction endonucleases. The electrophoretic distribution of DNA fragments in agarose gels of various concentrations was used to analyse restriction patterns. Based on the results of bioinformatic analysis of the nucleotide reference sequences of the experimental fragment of the beta-casein gene, it was found that the primer system for the ACRS-PCR DdeI method is characterised by higher parameters of flanking efficiency of the target DNA site compared to the ACRS-PCR TaqI system due to significantly greater effectiveness of hybridisation of oligonucleotides on the target DNA. Based on the results of laboratory tests of both methods, it is proposed to use an additional procedure for analysing the fluorescence intensity of individual elements of restriction patterns, which allows reducing the number of false genotyping that occurs in both cases (based on the results of using both methods) due to the appearance of non-specific amplification/restriction fragments within the size of target restrictions. The application of the ACRS-PCR DdeI method provides more differentiated patterns of the corresponding genotypes in agarose gel compared to the ACRS-PCR TaqI method, but leads to higher material costs for conducting research. These disadvantages of using primer systems for ACRS-PCR of the beta-casein locus determine the relevance of developing alternative methods for typing A1 and A2 alleles which include allele-specific PCR. The use of results is promising for solving the problems of genotyping cattle individuals of different breeds by A1 and A2 alleles of the beta-casein locus

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用ACRS-PCR方法分析牛个体CSN2位点的基因分型特征

在解决从牲畜中获得高质量乳制品的问题的背景下，确定牛奶蛋白质部分中β -酪蛋白(A1和A2)类型的问题变得至关重要。目的:分析用ACRS-PCR方法对牛β -酪蛋白位点A1和A2等位基因的分化。利用TaqI和DdeI限制性内切酶，采用人工合成限制性内切位点聚合酶链反应法分析基因分型特征。DNA片段在不同浓度琼脂糖凝胶中的电泳分布被用来分析限制性模式。基于对β -酪蛋白基因实验片段核苷酸参考序列的生物信息学分析结果，我们发现ACRS-PCR DdeI方法的引物系统与ACRS-PCR TaqI系统相比，由于在目标DNA上的寡核苷酸杂交效率显著提高，因此具有更高的靶DNA侧翼效率参数。根据两种方法的实验室测试结果，建议使用一种附加程序来分析限制性图案的单个元素的荧光强度，这可以减少在两种情况下(基于使用两种方法的结果)由于在目标限制的大小内出现非特异性扩增/限制性片段而发生的假基因分型的数量。与ACRS-PCR TaqI方法相比，ACRS-PCR DdeI方法在琼脂糖凝胶中提供了更多相应基因型的分化模式，但导致研究的材料成本更高。使用引物系统进行β -酪蛋白位点ACRS-PCR的这些缺点决定了开发包括等位基因特异性PCR在内的A1和A2等位基因分型替代方法的相关性。该结果有望解决利用β -酪蛋白位点A1和A2等位基因分型不同品种牛个体的问题

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Animal Science and Food Technology

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