多倍体和二倍体对无融合体布氏体适合度的差异影响。

Sexual Plant Reproduction Pub Date : 2012-06-01 Epub Date: 2012-02-25 DOI:10.1007/s00497-012-0181-8
Marie-Luise Voigt-Zielinski, Marcin Piwczyński, Timothy F Sharbel
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引用次数: 38

摘要

植物无融合生殖(无性生殖)和多倍体的共存一直是关于无性生殖起源和进化的争论主题。近年来,多倍体被认为是一种维持和稳定的因素,而不是无融合起源的来源。假设多倍体有助于补偿突变积累,因此,罕见的二倍体无融合现象间接支持了这一发现。然而,二倍体单染色体体存在并且是成功的,特别是在Boechera属。通过比较二倍体和三倍体单聚体的表型性状、适合度相关性状和无融合外显率,期望找到可归因于倍性的性状差异。令人惊讶的是,很少的性状变异可以归因于倍性,而性状变异主要是基因型特异性的。此外,研究表明,即使所有的后代在基因上与母株相同,父系的贡献对性状的成功也是非常重要的。考虑到在无性生殖过程中父本贡献的影响,这对将无融合性引入作物植物具有启示意义。尽管如此,多倍体是一种有效的缓冲有害突变的方法,但对于罕见的性事件,Boechera属二倍体单聚体的灵活性有助于它们在自然界中的成功。
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Differential effects of polyploidy and diploidy on fitness of apomictic Boechera.

The co-occurrence of apomixis (asexual reproduction) and polyploidy in plants has been the subject of debate in regard to the origin and evolution of asexuality. In recent years, polyploidy has been postulated as a maintenance and stabilization factor rather than as a source of apomixis origin. It is assumed polyploidy facilitates the compensation for mutation accumulation, and hence, the rare occurrence of diploid apomixis indirectly supports this finding. Nevertheless, diploid apomicts exist and are successful, especially in the genus Boechera. While comparing phenotypic traits, fitness-related traits and apomixis penetrance between both diploid and triploid apomicts in the genus Boechera, it was expected to find trait variance that can be attributed to ploidy. Surprisingly, little trait variation could be assigned to ploidy, but rather trait variations were mainly genotype-specific. Additionally, it is shown that paternal contribution is very important for trait success, even though all offspring are genetically identical to the mother plant. This harbors implications for the introduction of apomixis into crop plants, considering the effects of paternal contribution during asexual reproduction. Nevertheless, polyploidy is an efficient way to buffer deleterious mutations, but the flexibility of diploid apomicts of the genus Boechera for rare sexual events contributes to their success in nature.

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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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