G蛋白调节剂对梨花粉萌发及花粉胞内Ca2+浓度变化的影响

用激光共聚焦技术研究了异三聚体G蛋白活性调节剂对梨花粉萌发、花粉管生长及花粉细胞内游离钙离子浓度动态的影响。结果表明：异三聚体G蛋白激活剂霍乱毒素(CTX)可促进梨花粉萌发与花粉管生长,而其抑制剂百日咳毒素(PTX)则抑制花粉萌发与花粉管生长;霍乱毒素处理后,花粉细胞内产生特异性的“钙瞬变”信号,而百日咳毒素处理后则引起花粉细胞内游离钙离子浓度的持续下降。这表明：异三聚体G蛋白可能参与了梨花粉萌发与花粉管生长的调控过程,G蛋白的活性变化对花粉萌发的效应可能是通过调控花粉细胞内游离Ca^2 浓度的动态变化产生特异性的钙信号来实现的。     

雌蕊胞外基质在花粉管生长中的作用

雌蕊胞外基质对雌蕊与花粉的识别以及花粉管的定向生长有着重要的作用,是近年来植物生殖生物学的研究热点之一。与花粉萌发和花粉管生长相关的雌蕊胞外基质种类主要包括阿拉伯半乳糖蛋白、类伸展素糖蛋白、富含脯氨酸糖蛋白、钙调素、S-糖蛋白、果胶以及子房的特异性物质等。本文着重介绍这些雌蕊胞外基质的生理功能及其研究进展。     

雌蕊胞外基质在花粉管生长中的作用

雌蕊胞外基质对雌蕊与花粉的识别以及花粉管的定向生长有着重要的作用,是近年来植物生殖生物学的研究热点之一。与花粉萌发和花粉管生长相关的雌蕊胞外基质种类主要包括阿拉伯半乳糖蛋白、类伸展素糖蛋白、富含脯氨酸糖蛋白、钙调素、S—糖蛋白、果胶以及子房的特异性物质等。本文着重介绍这些雌蕊胞外基质的生理功能及其研究进展。     

花粉管引导机制的研究进展

花粉管引导是指显花植物在受精过程中,雌蕊组织与花粉管相互作用使花粉管定向生长并最终到达胚囊的过程,其机制颇为复杂。该文基于调控花粉管生长的孢子体引导和配子体细胞引导两个主要过程,阐述雌蕊中不同蛋白分子和其它小分子物质的浓度梯度在花粉管的孢子体组织引导中的作用,以及胚囊中不同类型的细胞及其相关基因与蛋白在花粉管的配子体细胞引导中的作用。同时,该文也对精细胞在花粉管引导中的作用进行了阐述。     

植物亲和受精过程中花粉管的粘附和定向生长

亲和受精过程中,粘附和向化作用贯穿始终.从花粉自花药中释放到花粉管穿过珠孔过程中,花粉管在雌蕊中的粘附和定向生长是多位点发生的,涉及到一系列的信号转导事件的发生;在雌蕊中糖原、果胶、Ca2*等多种物质通过不同的作用机制参与调控花粉管的粘附和定向生长.该文就这方面的研究进展作介绍.     

钙在被子植物受精过程中的作用

近年来,花粉管中的钙信号和生理功能的研究又取得了明显的进展,同时在雌蕊系统中有关钙分布的研究也初步显示了其时、空特征与被子植物的受精作用密切相关。该文总结了花粉萌发和花粉管生长过程中外源钙的作用机制,结合雌蕊组织中钙分布的特征,进一步探讨了钙在被子植物受精过程中的功能。     

肌醇磷脂信号途径参与胞外钙调素启动花粉萌发和花粉管伸长

高等植物有性生殖是植物发育生物学研究的重要内容之一,而作为雄配子体的花粉在雌蕊柱头上萌发及花粉管在花柱内的持续生长是有性生殖实现的关键。已有许多研究表明Ca2 在花粉萌发和花粉管生长过程中起重要作用。最近,我室在多年细胞外钙调素（calinodulin,CaM）存在。性质及生物学功能研究（孙大业等1995;Sun等1994,1995;Tang等1996）的基础上,通过不过膜的大分子CaM拈抗剂或抗体并结合恢复实验证实细胞外CaM对花粉的萌发和花粉管的伸长具有启动作用（马力耕和孙大业1996）,并发现G蛋白、质膜Caz”通道及胞内依赖Caz”的蛋白…     

钙在被子植物受精过程中的作用

近年来,花粉管中的钙信号和生理功能的研究取得了明显的进展,同时在雌蕊系统中有关钙分布的研究也初步显示了其时、空特征与被子植物的受精作用密切相关。该文总结了花粉萌发和花粉管生长过程中外源钙和内源钙的作用机制,结合雌蕊组织中钙分布的特征,进一步探讨了钙在被子植物受精过程中的功能。     

微丝骨架的构成及其对花粉管极性生长的调控作用

微丝骨架是细胞骨架的重要组成部分,它由肌动蛋白和肌动蛋白结合蛋白组成,广泛存在于真核细胞中。近年来,大量研究表明植物花粉及花粉管中存在丰富的微丝骨架。目前,在微丝骨架作为信号转导途径的靶标参与对花粉管极性生长的调控、微丝骨架在花粉和花粉管中的分布及其在花粉管生长过程中与其他信号分子之间的相互作用等方面取得了一系列突破性进展。     

钙结合蛋白对花粉生长发育调控研究进展

植物钙结合蛋白存在于花粉管中,通过直接或间接结合Ca~(2+),定位膜结构,形成Ca~(2+)信号通道,发生信号转导,对花粉发育及花粉管的生长起到调控作用。目前已明确以钙调蛋白(CAM)、钙依赖型蛋白激酶(CDPK)、类钙调蛋白(CML)、类钙调素B类蛋白(CBL)和激酶蛋白(CIPK)为主的植物钙结合蛋白在调控花粉发育及花粉管生长方面的重要作用。该文主要对近年来国内外已经明确的各类钙结合蛋白家族以及家族成员间不同的作用机理的研究进展进行综述,并举例阐述了钙结合蛋白家族中各类成员对花粉管特定的作用方式及调控作用,最后对今后相关领域的研究前景进行了展望。     

The Role of Calcium in the Fertilization Process in Flowering Plants

The fertilization process in flowering plants in a broad sense includes a progamic phase preceding the phase of double fertilization. To our present knowledge, calcium as a second messenger in the signal transduction plays important roles in all the links of this process. The present review attempts to highlight the recent advances in this research field, including: calcium in relation to in vitro pollen tube growth (distribution of calcium in pollen tube tip; regulation of pollen tube growth by calcium; calcium oscillation in pollen tube); distribution of calcium in pistil and its relation to in vivo pollen tube growth (calcium in relation to pollen-pistil recognition; pollen tube growth in pistil; pollen tube entry into embryo sac and the discharge and transportation of sperms); and calcium in relation to sperm-egg fusion and egg cell activation. In conclusion the author summarizes into several main view points, and gives recommendation for further researches on this topic.     

钙在有花植物受精过程中的作用

钙作为第二信使在植物信号转导中的作用一直是植物生理学、细胞生物学和发育生物学研究的热点。近年已有不少综述和专著从不同角度对此作了详细评论［1～5］。虽然这些文章中只有部分内容涉及本文的主题———钙在植物受精中的作用,但是它们所论述的关于钙信使系统在植物...     

The pollen receptor kinase LePRK2 mediates growth-promoting signals and positively regulates pollen germination and tube growth

In flowering plants, the process of pollen germination and tube growth is required for successful fertilization. A pollen receptor kinase from tomato (Solanum lycopersicum), LePRK2, has been implicated in signaling during pollen germination and tube growth as well as in mediating pollen (tube)-pistil communication. Here we show that reduced expression of LePRK2 affects four aspects of pollen germination and tube growth. First, the percentage of pollen that germinates is reduced, and the time window for competence to germinate is also shorter. Second, the pollen tube growth rate is reduced both in vitro and in the pistil. Third, tip-localized superoxide production by pollen tubes cannot be increased by exogenous calcium ions. Fourth, pollen tubes have defects in responses to style extract component (STIL), an extracellular growth-promoting signal from the pistil. Pollen tubes transiently overexpressing LePRK2-fluorescent protein fusions had slightly wider tips, whereas pollen tubes coexpressing LePRK2 and its cytoplasmic partner protein KPP (a Rop-GEF) had much wider tips. Together these results show that LePRK2 positively regulates pollen germination and tube growth and is involved in transducing responses to extracellular growth-promoting signals.     

High temperature limits in vivo pollen tube growth rates by altering diurnal carbohydrate balance in field-grown Gossypium hirsutum pistils

It has recently been reported that high temperature slows in vivo pollen tube growth rates in Gossypium hirsutum pistils under field conditions. Although numerous physical and biochemical pollen-pistil interactions are necessary for in vivo pollen tube growth to occur, studies investigating the influence of heat-induced changes in pistil biochemistry on in vivo pollen tube growth rates are lacking. We hypothesized that high temperature would alter diurnal pistil biochemistry and that pollen tube growth rates would be dependent upon the soluble carbohydrate content of the pistil during pollen tube growth. G. hirsutum seeds were sown on different dates to obtain flowers exposed to contrasting ambient temperatures but at the same developmental stage. Diurnal pistil measurements included carbohydrate balance, glutathione reductase (GR; EC 1.8.1.7), soluble protein, superoxide dismutase (SOD; EC 1.15.1.1), NADPH oxidase (NOX; EC 1.6.3.1), adenosine triphosphate (ATP), and water-soluble calcium. Soluble carbohydrate levels in cotton pistils were as much as 67.5% lower under high temperature conditions (34.6 °C maximum air temperature; August 4, 2009) than under cooler conditions (29.9 °C maximum air temperature; August 14, 2009). Regression analysis revealed that pollen tube growth rates were highly correlated with the soluble carbohydrate content of the pistil during pollen tube growth (r² = 0.932). Higher ambient temperature conditions on August 4 increased GR activity in the pistil only during periods not associated with in vivo pollen tube growth; pistil protein content declined earlier in the day under high temperatures; SOD and NOX were unaffected by either sample date or time of day; pistil ATP and water soluble calcium were unaffected by the warmer temperatures. We conclude that moderate heat stress significantly alters diurnal carbohydrate balance in the pistil and suggest that pollen tube growth rate through the style may be limited by soluble carbohydrate supply in the pistil.     

Imaging elongating pollen tubes by green fluorescent protein

Pollen tube elongation is a dynamic process in which pollen tubes navigate and respond to female tissues to accomplish their mission of delivering the sperm cells for fertilization. The tube growth process itself is driven by regulated intracellular conditions that maintain the appropriate ionic environment, actin dynamics and a balance level of exocytosis and endocytosis to support growth at the tube apex. However, the interactive process within the pistil has not rendered itself accessible for direct observation. The contribution by individual cytosolic constituents of the pollen tube growth machinery remains to be determined. With the development of the green fluorescent protein reporter system, many of these questions can be addressed in live pollen tubes that elongate within the pistil and inchemically defined media. Analyses of the mechanisms that underlie pollen tube growth will be significantly facilitated. Received: 15 March 2001 / Accepted: 30 May 2001     

芸苔属自交不亲和细胞信号转导的研究进展

在芸苔属植物的自交不亲和细胞信号转导过程中,信号分子-SCR配体是由花粉粒产生的,被柱头乳突细胞SRK受体识别后,进行细胞内信号转导。这对受体-配体是两个由S位点编码的且高度多态的蛋白质,它们决定着自交不亲和反应。配体是位于花粉粒表面的一个小的胞被蛋白,由SCR基因编码;受体是位于柱头乳突细胞原生质膜上的跨膜的蛋白质激酶,由SRK基因编码。在自交授粉过程中,配体SCR和受体SRK的相互作用激活了受体SRK,被激活的SRK通过其下游组分ARC1介导底物的泛肽化,然后泛肽化的底物在蛋白酶体/CSN中被降解,从而导致了自交不亲和性反应。这些降解的底物可能是促进花粉水合、萌发和花粉管生长的雌蕊亲和因子。主要针对芸苔属自交不亲和细胞信号转导作一综述。     

Roles of Pectin Methylesterases in Pollen-Tube Growth

Elongation of the pollen tube in pistil is essential for delivering sperms into the female gametophyte in sexual plant reproduction. Recently, a group of cell wall enzymes, pectin methylesterases （PMEs）, have been identified as playing an important role in this process. This article reviews the new understanding of the roles of PMEs in regulating pollen tube growth.