Ravi Maruthachalam, Marimuthu Mohan P A, Siddiqi Imran
Centre for Cellular and Molecular Biology, Uppal Road, Hyderabad 500007, India.
Nature. 2008 Feb 28;451(7182):1121-4. doi: 10.1038/nature06557. Epub 2008 Feb 13.
Apomixis, the formation of asexual seeds in plants, leads to populations that are genetically uniform maternal clones. The transfer of apomixis to crop plants holds great promise in plant breeding for fixation of heterozygosity and hybrid vigour because it would allow the propagation of hybrids over successive generations. Apomixis involves the production of unreduced (diploid) female gametes that retain the genotype of the parent plant (apomeiosis), followed by parthenogenetic development of the egg cell into an embryo and the formation of functional endosperm. The molecular mechanisms underlying apomixis are unknown. Here we show that mutation of the Arabidopsis gene DYAD/SWITCH1 (SWI1), a regulator of meiotic chromosome organization, leads to apomeiosis. We found that most fertile ovules in dyad plants form seeds that are triploid and that arise from the fertilization of an unreduced female gamete by a haploid male gamete. The unreduced female gametes fully retain parental heterozygosity across the genome, which is characteristic of apomeiosis. Our results show that the alteration of a single gene in a sexual plant can bring about functional apomeiosis, a major component of apomixis.
无融合生殖是指植物中无性种子的形成,会产生基因上均一的母本克隆群体。将无融合生殖转移到农作物中,在植物育种中对于固定杂合性和杂种优势具有巨大潜力,因为这将允许杂种在连续世代中繁殖。无融合生殖涉及产生未减数(二倍体)的雌配子,这些雌配子保留亲本植物的基因型(无孢子减数分裂),随后卵细胞孤雌生殖发育成胚胎并形成功能性胚乳。无融合生殖的分子机制尚不清楚。在这里,我们表明拟南芥基因DYAD/SWITCH1(SWI1)(减数分裂染色体组织的调节因子)发生突变会导致无孢子减数分裂。我们发现,dyad植株中大多数可育胚珠形成的种子是三倍体,由未减数的雌配子与单倍体雄配子受精产生。未减数的雌配子在整个基因组中完全保留亲本的杂合性,这是无孢子减数分裂的特征。我们的结果表明,有性植物中单个基因的改变可导致功能性无孢子减数分裂,这是无融合生殖的一个主要组成部分。
