雌配子体。

The arabidopsis book Pub Date : 2011-01-01 Epub Date: 2011-12-26 DOI:10.1199/tab.0155
Gary N Drews, Anna M G Koltunow
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引用次数: 190

摘要

被子植物的雌配子体在植物繁殖中起着至关重要的作用。它包含受精卵细胞和中心细胞,分别产生种子的胚胎和胚乳。雌性配子体的发育开始于胚珠发育的早期,形成二倍体大孢子母细胞并进行减数分裂。一个单倍体大孢子发育成雌性配子体。遗传和表观遗传过程介导了大孢子母细胞身份的规范,并限制了大孢子母细胞的形成,每个胚珠只能形成一个细胞。生长素梯度影响雌性配子体极性,一系列转录因子介导雌性配子体细胞规格和分化。成熟的雌性配子体分泌多肽,引导花粉管进入胚囊,并含有蛋白质复合物,在受精前阻止种子发育。受精后,雌性配子体通过母本效应基因和调节亲本贡献来影响种子发育。雌性配子体可以通过称为配子体无融合的无性过程形成,该过程包括二倍体雌性配子体的形成和卵子向胚胎的独立受精发育。这些功能共同强调了雌性配子体在种子和食物生产中的重要作用。
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The female gametophyte.

The angiosperm female gametophyte is critical for plant reproduction. It contains the egg cell and central cell that become fertilized and give rise to the embryo and endosperm of the seed, respectively. Female gametophyte development begins early in ovule development with the formation of a diploid megaspore mother cell that undergoes meiosis. One resulting haploid megaspore then develops into the female gametophyte. Genetic and epigenetic processes mediate specification of megaspore mother cell identity and limit megaspore mother cell formation to a single cell per ovule. Auxin gradients influence female gametophyte polarity and a battery of transcription factors mediate female gametophyte cell specification and differentiation. The mature female gametophyte secretes peptides that guide the pollen tube to the embryo sac and contains protein complexes that prevent seed development before fertilization. Post-fertilization, the female gametophyte influences seed development through maternal-effect genes and by regulating parental contributions. Female gametophytes can form by an asexual process called gametophytic apomixis, which involves formation of a diploid female gametophyte and fertilization-independent development of the egg into the embryo. These functions collectively underscore the important role of the female gametophyte in seed and food production.

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Oomycetes Used in Arabidopsis Research. Insights Into the Role of Ubiquitination in Meiosis: Fertility, Adaptation and Plant Breeding. Agrobacterium-mediated plant transformation: biology and applications. Using Phenomic Analysis of Photosynthetic Function for Abiotic Stress Response Gene Discovery. Biotrophy at Its Best: Novel Findings and Unsolved Mysteries of the Arabidopsis-Powdery Mildew Pathosystem.
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