Application and prospect of gene chip in genetic breeding of livestock and poultry.

Q3 Medicine
遗传 Pub Date : 2023-12-20 DOI:10.16288/j.yczz.23-233
Jia-Hao Wang, Qing-Yao Zhao, Yue-Ling Zhou, Liang-Yu Shi, Chu-Duan Wang, Ying Yu
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引用次数: 0

Abstract

Gene chip is a high-throughput technique for detecting specific DNA sequences by DNA or DNA-RNA complementary hybridization, among which SNP genotyping chips have been widely employed in the animal genetics and breeding, and have made great achievements in cattle (Bos taurus), pigs (Sus scrofa), sheep (Caprinae), chickens (Gallus gallus) and other livestock. However, genomic selection applied in production merely uses genomic information and cannot fully explain the molecular mechanism of complex traits genetics, which limits the accuracy of genomic selection. With the continuous progresses in epigenetic research, the development of commercial methylation chips and the application of the epigenome-wide association study (EWAS), DNA methylation has been extensively used to draw the causal connections between genetics and phenotypes. In the future, it is hopefully expected to develop methylation chips customized for livestock and poultry and explore methylation sites significantly related to economic traits of livestock and poultry through EWAS thereby extending the understanding of causal variation of complex traits. Combining methylation chips and SNP chips, we can capture the epigenomic and genomic information of livestock and poultry, interpret genetic variation more precisely, improve the accuracy of genome selection, and promote the fine evolution of molecular genetic breeding of livestock and poultry. In this review, we summarize the application of SNP chips and depict the prospects of the application of methylation chips in livestock and poultry. This review will provide valuable insights for further application of gene chips in farm animal breeding.

基因芯片在畜禽遗传育种中的应用和前景。
基因芯片是一种通过DNA或DNA-RNA互补杂交检测特定DNA序列的高通量技术,其中SNP基因分型芯片已在动物遗传育种中得到广泛应用,并在牛(Bos taurus)、猪(Sus scrofa)、羊(Caprinae)、鸡(Gallus gallus)等家畜中取得了巨大成就。然而,在生产中应用的基因组选择只是利用基因组信息,不能完全解释复杂性状遗传的分子机理,限制了基因组选择的准确性。随着表观遗传学研究的不断进步、商业甲基化芯片的开发以及全表观基因组关联研究(EWAS)的应用,DNA 甲基化已被广泛用于解释遗传与表型之间的因果关系。未来,有望开发出为畜禽定制的甲基化芯片,并通过 EWAS 探索与畜禽经济性状显著相关的甲基化位点,从而扩展对复杂性状因果变异的认识。结合甲基化芯片和 SNP 芯片,我们可以捕捉畜禽的表观基因组和基因组信息,更精确地解读遗传变异,提高基因组选择的准确性,促进畜禽分子遗传育种的精细化进化。在这篇综述中,我们总结了 SNP 芯片的应用,并描绘了甲基化芯片在畜禽中的应用前景。本综述将为基因芯片在农场动物育种中的进一步应用提供有价值的见解。
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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来源期刊
遗传
遗传 Medicine-Medicine (all)
CiteScore
2.50
自引率
0.00%
发文量
6699
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