被子植物受精作用的分子和细胞生物学机制

被子植物双受精包括精-卵、精子-中央细胞两个融合过程。由于双受精深藏于母体组织中进行,长期以来一直是植物有性生殖研究中的难点。近年来,随着各种植物配子体cDNA文库的构建,各种离体研究系统的建立和突变体分析的兴起,极大地推动了被子植物受精作用研究的快速发展,增进了人们对被子植物受精过程的分子和细胞生物学机制的深入了解。本文着重讨论受精作用的若干重要发育事件,包括受精前卵器细胞对花粉管向胚珠定向生长的近距离引导信号,精子的靶向运动,精、卵细胞相互作用和配子融合后卵细胞的激活与中央细胞发育的启动等。     

莴苣授粉前后中央细胞中钙的分布(简报)

Ca2 作为植物生长发育过程中的必需元素之一,通过特定的时、空分布参与调控植物生长发育的诸多发育过程[1].中央细胞是胚囊中体积最大的细胞,与卵器共同构成雌性生殖单位.在被子植物双受精作用中,卵细胞与一个精细胞融合形成胚,中央细胞与另一个精细胞融合并发育成胚乳,为胚的发育提供营养.     

被子植物受精机制的研究进展

被子植物的受精是一个复杂而精巧的过程。花粉管到达子房,通过退化助细胞进入胚囊,释放出两个精细胞。原来在花粉管中相互联结的两个精细胞在退化助细胞中分开,一个与卵细胞融合,另一个与中央细胞融合,完成双受精。目前对双受精过程中有关雌、雄配子识别的机制还知之甚少。本文介绍了目前被子植物精、卵细胞融合前后的细胞周期变化、退化助细胞的功能、精细胞在退化助细胞中迁移的研究动态、精细胞的倾向受精和卵细胞的激活等被子植物受精生物学领域中的一些新的研究成果和发展趋势。     

精子与极核融合是受精吗

单倍体的精子 (雄配子 )和卵细胞 (雌配子 )融合成一个二倍体的受精卵的过程叫受精 (fertilization) ,为有性生殖的基本部分和一个重要特征 ,受精卵进一步发育成 1个新个体。被子植物的受精作用过程中 ,两个精子进入胚囊后 ,1个精子与卵细胞融合形成受精卵并发育成胚 ,另 1个精子与极核 (或中央细胞 )融合形成三倍体的初生胚乳核而形成胚乳 ,这种现象叫做双受精 (dou-ble fertilization) ,是被子植物特有的一种受精现象 ,为俄国生物学家纳瓦申 (Nawaschin)在 1898年发现的。双受精现象也会在一些裸子植物 (麻黄属 )中见到 ,此属植物的 1个…     

植物的受精作用 第三讲 雄性配子与雌性配子融合的过程

当花粉管进入胚囊后,立即释放出其中的内容物,包括两个精子。接着发生雌雄配子的融合:一个精子与卵融合,形成合子,进一步发育成胚;另一个精子与中央细胞的极核(通常两个)融合,形成初生胚乳核,发育成为胚乳。受精作用发生的两种融合的现象,称为双受精。这是被子植物独具的特点。     

雄性生殖单位和精子异型性研究的现状

本世纪八十年代以来,在国际范围内,研究被子植物的花粉生物学是一个十分活跃的领域,取得了一些突破性的成果。在这些研究中尤为重要的是雄性生殖单位概念的建立和精子异型性现象的确认。它对揭开双受精作用中几个长期不解之谜有重大的意义,如精细胞的细胞质或其中所含细胞器是否遗传?精细胞对卵和对中央细胞的受精是否有     

黑节草双受精过程及胚胎发育的研究

黑节草从传粉到受精约需１３０ｄ,精子在花粉管中形成,胚囊发育属蓼型胚囊,因反足细胞较早退化,故受精前胚囊多只由卵器和中央细胞组成。精卵核融合时,精核染色质进入卵核后凝集成颗粒状,并在原位与卵核的染色质融合,雌、雄性核仁一直维持至合子的第一次分裂期前。双受精作用正常,属于有丝分裂前配子融合类型,初生胚乳核发生２－３次分裂后逐渐退化消失,胚的发育局限于球形胚阶段。     

离体受精作为技术平台在被子植物有性生殖研究中的应用

被子植物的离体受精10a前在玉米中已获得成功,尽管目前只在玉米获得完全成功和小麦获得部分成功,但离体受精技术的研究成果非常显著。目前离体受精技术已被用于其他的研究,如用分离的精细胞和卵细胞筛选配子细胞的特异基因和蛋白质：研究合子细胞被激活的机理：用不同种植物的精、卵细胞体外融合进行新的远缘杂交尝试;利用合子细胞易分裂和胚胎发生特征探索用其作为转基因研究的受体细胞等。以离体受精技术为基础在高等植物发育生物学和生殖生物学领域的基础研究和应用探索显示了巨大潜力。介绍了离体受精技术在被子植物有性生殖的研究成果和应用前景,为研究和利用被子植物有性生殖过程中的生殖细胞特征提供线索。     

天竺葵雌性生殖单位的超微结构

应用透射电镜研究了临近受精时天竺葵(Pelargonium hortorum Bailey)胚囊中的卵细胞、助细胞和中央细胞的结构。证明了卵细胞与助细胞以及助细胞与助细胞之间从合点端至珠孔端有很大的面积以质膜分界,仅珠孔端少部分以壁分隔。卵细胞与中央细胞之间同样缺乏细胞壁。在卵细胞的合点端,两质膜不同程度地分离形成宽窄相间的间隙。在间隙的絮状基质中存在小泡,这些小泡的产生似与卵和中央细胞中周质内质网的活动有关。推测小泡为多糖性质,可能为合子新壁的建造提供物质。卵细胞质中含巨大线粒体,质体和内质网也较丰富。基于超微结构的特征,可认为卵细胞具高度的生理合成活动的潜能。中央细胞极核位于珠孔端与卵器细胞毗邻,有利于在双受精作用中同时发生精细胞与卵细胞和精细胞与中央细胞核的融合。中央细胞的侧壁在珠孔端形成内突,具传递细胞的特点,表明这是雌配子体向孢子体摄取营养的重要部位。助细胞的细胞质含丰富的细胞器,这与多数植物中的相似,但具几个明显的特征,即核中存在微核仁,内质网形成圆球体或脂体,线粒体富集在丝状器的附近。传粉后花粉管进入胚囊之前,两个助细胞中一个退化。     

有花植物的有性生殖

花是有花植物（被子植物）的有性生殖器官。在雄蕊的花药中产生雄配子体,通常称花粉;在雌蕊子房内的胚珠中发育雌配子体,通常称胚囊。在花粉或花粉管中形成的一对精细胞分别与胚囊中的卵和中央细胞受精,由此产生胚和胚乳。随着胚和胚乳的发育,整个胚珠发育为种子。这是被子植物有性生殖的一般过程。     

Egg activation in flowering plants

Compared to animals and algae, egg activation in flowering plants is still poorly understood because of the inaccessibility and complexity of the fertilization process which is double and internal. However, the development of in vitro fertilization (IVF) systems in maize and a few other plants, despite some limitations, offers new possibilities for the study of early post- fusional events and signals leading to egg activation under defined conditions. This review reports recent data on calcium events induced by gamete fusion during maize IVF and presents perspectives on the role of calcium in egg activation and in early development. Received: 2 December 2000 / Accepted: 7 June 2001     

Glycobiology of fertilization in the pig

By adopting internal fertilization, the meeting of both gametes - the sperm and the egg - and thus the highly coordinated sequence of interactions leading to fertilization, occur in the female reproductive tract. In mammals, the oviduct has been shown to translate the requirements of the female, coordinating sperm activation (capacitation) and sperm transport with the arrival of the ovulated egg. A hierarchy of carbohydrate-based interactions accompanies these events ranging from the binding of uncapacitated sperm to the oviductal epithelium (establishment of the female sperm reservoir), to the primary and secondary binding processes contributing to gamete recognition and sperm penetration of the oocyte zona pellucida. The current perspective will focus on the carbohydrate-recognition systems in the binding events during fertilization in the pig. The roles of the major carbohydrate-binding proteins, the spermadhesins and the acrosomal serine proteinase, pro/acrosin are discussed under consideration of recent structural data. The glycans and the glycoproteins of the porcine oviduct with a focus on the candidate sperm receptors as well as the zona pellucida N-glycans of prepuberal pigs have been characterized by a mass spectrometric approach. Furthermore, some preliminary data supporting the hypothesis that the zona pellucida has to undergo a maturation process during oocyte development are presented.     

Egg longevity and time-integrated fertilization in a temperate sea urchin (Strongylocentrotus droebachiensis)

Recent field experiments have suggested that fertilization levels in sea urchins (and other broadcast spawners that release their gametes into the water column) may often be far below 100%. However, past experiments have not considered the potentially positive combined effects of an extended period of egg longevity and the release of gametes in viscous fluids (which reduces dilution rates). In a laboratory experiment, we found that eggs of the sea urchin Strongylocentrotus droebachiensis had high viability for 2 to 3 d. Fertilization levels of eggs held in sperm-permeable egg baskets in the field and exposed to sperm slowly diffusing off a spawning male increased significantly with exposure from 15 min to 3 h. In a field survey of time-integrated fertilizations (over 24, 48, and 72 h) during natural sperm release events, eggs held in baskets accrued fertilizations over as much as 48 h and attained fairly high fertilization levels. Our results suggest that an extended period of egg longevity and the release of gametes in viscous fluids may result in higher natural fertilization levels than currently expected from short-term field experiments.     

被子植物助细胞的发育和功能

助细胞是被子植物雌配子体的组成细胞之一,是大多数被子植物完成受精作用的关键环节之一。在受精过程中,助细胞吸引花粉管向雌配子体生长,并接受花粉管长入细胞程序死亡助细胞中。接下来的花粉管停止生长和花粉管顶端破裂释放出2个精细胞的过程可能也依赖于助细胞。另外,雄性生殖单位的解体、提供精细胞的运动轨道和启动精细胞合成DNA的生物学事件也可能与助细胞有关。助细胞的形态结构已研究得比较清楚,但有关助细胞的发育机理和它在受精过程中的作用则仍不明确。近年来对助细胞的研究又取得了一些新结果,尤其是一些分子生物学的研究结果为揭示助细胞的功能提供了重要线索。该文总结了这方面的研究成果,并对助细胞的生殖功能进行了分析。     

Gamete membrane dynamics during double fertilization in Arabidopsis

In the double fertilization of angiosperms, one sperm cell fertilizes an egg cell to produce a zygote, whereas the other sperm cell fertilizes a central cell to give rise to an endosperm. There is little information on gamete membrane dynamics during double fertilization even though the cell surface structure is critical for male and female gamete interactions. In a recent study, we analyzed gamete membrane behavior during double fertilization by live-cell imaging with Arabidopsis gamete membrane marker lines. We observed that the sperm membrane signals occasionally remained at the boundary of the female gametes after gamete fusion. In addition, sperm membrane signals entering the fertilized female gametes were detected. These findings suggested that plasma membrane fusion between male and female gametes occurred with the sperm internal membrane components entering the female gametes, and this was followed by plasmogamy.     

In vitro fertilization and expression of transgenes in gametes and zygotes

The in vitro fertilization system of maize is the well characterized model system for the fertilization process and early zygotic embryogenesis of higher plants. Application of molecular methods to the in vitro fertilization system led to the isolation of new genes and uncovered specific expression patterns of cell cycle regulators. Recent studies showed that expression of transgenes is possible in gametes and zygotes, thus transgenic approaches might offer an opportunity to unravel the roles of genes during fertilization and early development. The competence of gametes and zygotes to express transgenes will also enable the expression of GFP based reporter genes for the visualization of subcellular components in these cells in vivo. This review focuses on the data concerning the expression of transgenes in gametes and zygotes and describes some examples of recent developments in transgenic technology illustrating the emerging possibilities in experimental design by combining this technology with in vitro fertilization. Received: 20 December 2001 / Revision accepted: 6 June 2001     

Analysis of gamete membrane dynamics during double fertilization of Arabidopsis

Angiosperms have a unique sexual reproduction system called “double fertilization.” One sperm cell fertilizes the egg and another sperm cell fertilizes the central cell. To date, plant gamete membrane dynamics during fertilization has been poorly understood. To analyze this unrevealed gamete subcellular behavior, live cell imaging analyses of Arabidopsis double fertilization were performed. We produced female gamete membrane marker lines in which fluorescent proteins conjugated with PIP2a finely visualized egg cell and central cell surfaces. Using those lines together with a sperm cell membrane marker line expressing GCS1-GFP, the double fertilization process was observed. As a result, after gamete fusion, putative sperm plasma membrane GFP signals were occasionally detected on the egg cell surface adjacent to the central cell. In addition, time-lapse imaging revealed that GCS1-GFP signals entered both the egg cell and the central cell in parallel with the sperm cell movement toward the female gametes during double fertilization. These findings suggested that the gamete fusion process based on membrane dynamics was composed of (1) plasma membrane fusion on male and female gamete surfaces, (2) entry of sperm internal membrane components into the female gametes, and (3) plasmogamy.     

Dynamics of the mammalian sperm plasma membrane in the process of fertilization

Sexual reproduction requires the fusion of sperm cell and oocyte during fertilization to produce the diploid zygote. In mammals complex changes in the plasma membrane of the sperm cell are involved in this process. Sperm cells have unusual membranes compared to those of somatic cells. After leaving the testes, sperm cells cease plasma membrane lipid and protein synthesis, and vesicle mediated transport. Biophysical studies reveal that lipids and proteins are organized into lateral regions of the sperm head surface. A delicate reorientation and modification of plasma membrane molecules take place in the female tract when sperm cells are activated by so-called capacitation factors. These surface changes enable the sperm cell to bind to the extra cellular matrix of the egg (zona pellucida, ZP). The ZP primes the sperm cell to initiate the acrosome reaction, which is an exocytotic process that makes available the enzymatic machinery required for sperm penetration through the ZP. After complete penetration the sperm cell meets the plasma membrane of the egg cell (oolemma). A specific set of molecules is involved in a disintegrin-integrin type of anchoring of the two gametes which is completed by fusion of the two gamete plasma membranes. The fertilized egg is activated and zygote formation preludes the development of a new living organism. In this review we focus on the involvement of processes that occur at the sperm plasma membrane in the sequence of events that lead to successful fertilization. For this purpose, dynamics in adhesive and fusion properties, molecular composition and architecture of the sperm plasma membrane, as well as membrane derived signalling are reviewed.     

被子植物助细胞的发育和功能

助细胞是被子植物雌配子体的组成细胞之一, 是大多数被子植物完成受精作用的关键环节之一。在受精过程中, 助细胞吸引花粉管向雌配子体生长, 并接受花粉管长入细胞程序死亡助细胞中。接下来的花粉管停止生长和花粉管顶端破裂释放出2个精细胞的过程可能也依赖于助细胞。另外, 雄性生殖单位的解体、提供精细胞的运动轨道和启动精细胞合成DNA的生物学事件也可能与助细胞有关。助细胞的形态结构已研究得比较清楚, 但有关助细胞的发育机理和它在受精过程中的作用则仍不明确。近年来对助细胞的研究又取得了一些新结果, 尤其是一些分子生物学的研究结果为揭示助细胞的功能提供了重要线索。该文总结了这方面的研究成果, 并对助细胞的生殖功能进行了分析。