Selective microspore abortion correlated with aneuploidy: an indication of meiotic drive.

Sexual Plant Reproduction Pub Date : 2011-03-01 Epub Date: 2010-10-01 DOI:10.1007/s00497-010-0150-z

Carol A Furness, Paula J Rudall

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引用次数: 14

Abstract

Selective megaspore abortion (monomegaspory) probably arose once in seed plants and occurs routinely in more than 70% of angiosperm species, representing one of the key characters of a heterosporous life history. In contrast, selective microspore abortion leading to pollen dispersal as pseudomonads (here termed monomicrospory) apparently arose at least twice independently within angiosperms, though it occurs in a limited number of taxa. Remarkably, similar examples of monomicrospory occur in members of two distantly related angiosperm families: the sedge family (Cyperaceae) and the epacrid subfamily (Styphelioideae) of the eudicot family Ericaceae. In sedges, monomicrospory is derived directly from normal tetrads, whereas epacrid pseudomonads apparently evolved via an intermediate stage, in which variable sterility occurs in a single tetrad. Our comparison of these two examples of selective microspore abortion highlights a correlation with aneuploidy, indicating that non-random chromosome segregation caused by monomicrospory could drive chromosomal mutations to rapid fixation through meiotic drive.

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选择性小孢子败育与非整倍体相关:减数分裂驱动的指示。

选择性大孢子败育(monomegaspory)可能在种子植物中出现过一次，在70%以上的被子植物物种中普遍存在，是异孢子生活史的关键特征之一。相比之下，选择性小孢子败育导致花粉以假单胞菌(此处称为单小孢子)的形式传播，尽管在有限的分类群中发生，但在被子植物中至少独立出现了两次。值得注意的是，类似的单小孢子的例子出现在两个远亲被子植物科的成员中:莎草科(莎草科)和桔梗科(桔梗科)的叶麻亚科(桔梗科)。在莎草中，单小孢子体直接来自正常的四分体，而单胞假单胞体显然是通过中间阶段进化而来的，在中间阶段，单个四分体发生可变不育。我们对这两个选择性小孢子败育的比较突出了与非整倍体的相关性，表明单小孢子引起的非随机染色体分离可以通过减数分裂驱动驱动染色体突变快速固定。

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 生物-生殖生物学

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审稿时长

3 months