Heterosis–Genetic Basis and Utilization for Improvement of Dairy Cattle: A Review

Manoj Kumar, P. Ratwan, Anil Kumar
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引用次数: 2

Abstract

The phenomenon in which progeny of crosses between inbred lines or purebred populations are better than the expected average of the two populations or lines for a particular trait is known as heterosis. Utilization of heterosis is the main goal of crossbreeding. The amount of heterosis maintained in a herd depends on the type of crossbreeding system selected for breeding. Heterosis includes greater viability, faster growth rate and greater milk production in dairy cattle. The genetic basis of heterosis is nonadditive gene action (dominance, overdominance, pseudo-overdominance, and epistasis). The main requirements for heterosis are there must be genetic diversity between the breeds crossed and there must be some nonadditive gene effects present for the particular trait involved. No heterosis was observed for traits governed by additive gene action. However, it tends to be greatest for traits with low heritability and least for traits with high heritability in nature. Traits of low heritability (reproductive traits) are generally most benefited from heterosis as compare to high heritability (growth rate). They can be improved through the adequate use of crossbreeding systems. Keywords: Crossbreeding, heterosis, cattle Cite this Article Kumar M, Ratwan P,  Kumar A. Heterosis–Genetic Basis and Utilization for Improvement of Dairy Cattle: A Review. Research & Reviews: Journal of Dairy Science and Technology . 2016; 5(2): 40–50p.
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奶牛杂种优势遗传基础及其改良利用综述
自交系或纯种群体之间的杂交后代在某一特定性状上优于两个群体或系的预期平均值的现象称为杂种优势。杂种优势的利用是杂交育种的主要目的。在一个畜群中保持杂种优势的数量取决于选择杂交育种系统的类型。杂种优势包括奶牛更强的生存能力、更快的生长速度和更高的产奶量。杂种优势的遗传基础是非加性基因作用(显性、超显性、伪超显性和上位性)。杂种优势的主要要求是杂交品种之间必须具有遗传多样性,并且在所涉及的特定性状上必须存在一些非加性基因效应。加性基因作用下的性状未见杂种优势。但在自然界中,遗传力低的性状对遗传力的影响最大,遗传力高的性状对遗传力的影响最小。与高遗传力(生长率)相比,低遗传力性状(生殖性状)通常从杂种优势中获益最多。它们可以通过充分利用杂交育种系统得到改善。库马尔·M,拉特万·P,库马尔·A。奶牛杂种优势的遗传基础及其改良利用综述。研究与评述:乳品科学与技术杂志。2016;5 (2): 40-50p。
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