The effect of 2n gametes on sex ratios in Actinidia.

Sexual Plant Reproduction Pub Date : 2012-09-01 Epub Date: 2012-06-28 DOI:10.1007/s00497-012-0191-6
Alan G Seal, A Ross Ferguson, H Nihal de Silva, Jing-Li Zhang
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引用次数: 21

Abstract

Sex can sometimes lead to complications. In some crops, 2n gametes have been exploited by plant breeders to transfer genetic variation between taxa of different ploidy levels. However, their role and use in dioecious genera have received relatively little attention. In the dioecious genus Actinidia (kiwifruit), seedling populations usually segregate equally for females and males as sex is determined by an XX female/XY male system. While fertilization involving 2n egg cells is not expected to affect the sex ratios of progenies, fertilization involving 2n pollen is likely to produce progenies with excess males. The extent of sex ratio distortion will depend on the relative contributions of first and second division restitution, and the frequency and location of cross-overs in meiosis. In this study, seedlings recovered from crosses between females of hexaploid Actinidia deliciosa and males of two diploid species, Actinidia chinensis and Actinidia eriantha, included a proportion of pentaploid hybrids presumably derived from fertilization involving 2n pollen. Most of these pentaploids were male, and a proportion of them were likely to be carrying two Y chromosomes. If used as parents in further crosses, males with multiple Y chromosomes are likely to cause distorted sex ratios in their immediate progenies. In dioecious genera such as Actinidia, the effects on sex ratios of different mechanisms of ploidy change need to be taken into account when considering the evolution of polyploidy and the design of breeding strategies involving ploidy manipulation.

2n配子对猕猴桃性别比的影响。
性行为有时会导致并发症。在一些作物中,植物育种家利用2n配子在不同倍性水平的分类群之间转移遗传变异。然而,它们在雌雄异株属中的作用和利用却很少受到关注。在雌雄异株猕猴桃属(猕猴桃)中,由于性别是由XX雌性/XY雄性系统决定的,因此雌性和雄性的幼苗群体通常是平等的。虽然涉及2n个卵细胞的受精预计不会影响后代的性别比例,但涉及2n个花粉的受精可能会产生雄性过多的后代。性别比例扭曲的程度将取决于第一次和第二次分裂恢复的相对贡献,以及减数分裂中交叉的频率和位置。本研究中,猕猴桃(Actinidia deliciosa)雌性与两种二倍体猕猴桃(Actinidia chinensis)和猕猴桃(Actinidia eriantha)雄性杂交获得的幼苗中含有一定比例的五倍体杂种,可能来自于涉及2n花粉的受精。这些五倍体大多是雄性,其中一部分可能携带两条Y染色体。如果在进一步的杂交中作为亲本,具有多个Y染色体的雄性可能会导致其直系后代的性别比例扭曲。在猕猴桃等雌雄异株属中,在考虑多倍体的进化和涉及倍性操纵的育种策略设计时,需要考虑不同倍性变化机制对性别比的影响。
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
Sexual Plant Reproduction
Sexual Plant Reproduction 生物-生殖生物学
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