位于胚囊内的水稻离体受精受精卵的不对称细胞分裂。

Sexual Plant Reproduction Pub Date : 2010-09-01 Epub Date: 2010-01-07 DOI:10.1007/s00497-009-0129-9
Akiko Sato, Kiminori Toyooka, Takashi Okamoto
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引用次数: 35

摘要

在被子植物中,合子通常分裂成由顶细胞和基细胞组成的不对称的两细胞胚胎。合子的不平等分裂被认为是植物顶基轴形成的第一步,也是被子植物早期胚胎发生和形态发生的基本特征。由于受精和随后的胚胎发生在胚胎囊中,胚胎囊深埋在卵泡组织中,因此离体配子的体外受精是研究受精和受精后事件机制的有力系统。水稻是一种新兴的分子和实验模式植物,然而,对胚囊内第一次合子分裂的特征及其顶基胚极性的起源尚未深入研究。因此,在本研究中,首先通过对受精卵、受精卵和胚囊内的二细胞胚胎的连续切片观察,准确地确定了水稻合子在植物中的分裂模式。水稻合子不对称地分裂成两细胞胚,包括一个具有致密细胞质的较小的顶细胞和一个较大的液泡化的基底细胞。此外,对体外受精制备的受精卵的分裂谱的详细观察表明,受精卵也像植物一样分裂成不对称的双细胞胚胎。这些观察结果表明,体外产生的水稻受精卵和双细胞胚胎可能为进一步研究植物受精卵不对称分裂的机制和控制提供有用的实验模型。
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Asymmetric cell division of rice zygotes located in embryo sac and produced by in vitro fertilization.

In angiosperms, a zygote generally divides into an asymmetric two-celled embryo consisting of an apical and a basal cell. This unequal division of the zygote is a putative first step for formation of the apical-basal axis of plants and is a fundamental feature of early embryogenesis and morphogenesis in angiosperms. Because fertilization and subsequent embryogenesis occur in embryo sacs, which are deeply embedded in ovular tissue, in vitro fertilization of isolated gametes is a powerful system to dissect mechanisms of fertilization and post-fertilization events. Rice is an emerging molecular and experimental model plant, however, profile of the first zygotic division within embryo sac and thus origin of apical-basal embryo polarity has not been closely investigated. Therefore, in the present study, the division pattern of rice zygote in planta was first determined accurately by observations employing serial sections of the egg apparatus, zygotes and two-celled embryos in the embryo sac. The rice zygote divides asymmetrically into a two-celled embryo consisting of a statistically significantly smaller apical cell with dense cytoplasm and a larger vacuolated basal cell. Moreover, detailed observations of division profiles of zygotes prepared by in vitro fertilization indicate that the zygote also divides into an asymmetric two-celled embryo as in planta. Such observations suggest that in vitro-produced rice zygotes and two-celled embryos may be useful as experimental models for further investigations into the mechanism and control of asymmetric division of plant zygotes.

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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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