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1.
陆地棉雌蕊的花粉管生长途径中钙分布的超微细胞化学定位   总被引:11,自引:0,他引:11  
用焦锑酸盐沉淀法对陆地棉(Gossypium hirsutum L.)授粉前后的柱头、花柱、珠孔与珠心组织中的钙进行了超微细胞化学定位。X射线波谱与能谱分析证明所定位的沉淀确系焦锑酸钙。观察结果表明:在整个花粉管生长途径中的雌蕊组织,钙分布均较其它相邻组织密集;钙主要分布在细胞壁与胞间基质等质外体系统中。在雌蕊中生长的花粉管,其尖端细胞器区也有丰富的钙。  相似文献   

2.
猕猴桃花粉原位生长过程中Ca2+的超微细胞化学定位   总被引:2,自引:0,他引:2  
应用扫描电镜和荧光显微镜对软枣猕猴桃同种花粉在柱头上原位萌发及花粉管生长情况进行了观察,并用焦锑酸盐沉淀法对其授粉前后柱头及花柱中Ca2+进行超微细胞化学定位.结果显示:(1)猕猴桃柱头属于干性柱头,具有一道裂沟,乳突呈长圆柱形,授粉前后形态差异不明显.(2)授粉后3 h,花粉管生长穿过柱头表面,授粉后7 h,花粉管生长到达花柱底部;(3)授粉前后,柱头接受面靠近柱头外围细胞的角质层一侧细胞器内含有丰富的钙,而柱头非接受表面钙颗粒分布很少;(4)授粉前和授粉后3 h,花柱顶端钙颗粒较少,基部钙颗粒较多;授粉后7 h,花柱顶端和基部钙分布密度无明显差别;(5)授粉前后花柱顶端钙主要均匀分布在细胞质膜位置;在花柱基部授粉前钙主要分布在引导组织胞间隙中,授粉后3 h主要分布在细胞质内,授粉后7 h主要存在于细胞质、内质网上.研究表明,猕猴桃授粉前后,柱头和花柱组织中均含有钙,授粉前和授粉后3 h花柱中的钙呈现出梯度分布,授粉后7 h钙的梯度分布现象减弱甚至消失.  相似文献   

3.
烟草花粉萌发和花粉管生长期间柱头和花柱中的钙分布   总被引:9,自引:2,他引:7  
烟草柱头表面有两层覆盖物,其中含有少量细小的钙颗粒.花粉落到柱头上后,储存在花粉外壁中的钙被释放到覆盖层中.当花粉管穿过覆盖层长入柱头细胞之间时,花粉管顶端的细胞壁中出现了大量的细小钙颗粒.开花后22 h观察时,在花柱引导组织中形成了钙的梯度分布:花柱上部引导组织中的钙较少,而下部连接子房处的花柱引导组织中含有较多的钙颗粒.去雄花开花后1 d时,花柱上部引导组织中的钙明显增多;3 d时,连柱头细胞中也出现了较多的钙颗粒.讨论了烟草花柱引导组织中钙梯度分布和花粉管生长的关系.  相似文献   

4.
用焦锑酸盐沉淀法对甘蓝型油菜(BrasicanapusL.)授粉前后珠孔和胚囊中的钙进行了超微细胞化学定位。X射线能谱微区定性分析(EDXA)表明前法所得沉淀确系焦锑酸钙。同时利用图像处理系统对胚囊成员细胞中钙沉淀颗粒的体密度和大小进行了定量分析。结果显示,授粉前后内、外珠孔处钙沉淀明显较珠被其它部位为多,钙主要分布在细胞壁和胞间基质等质外体系统中。授粉前2个助细胞中均含有较其它细胞为多的钙沉淀,约为卵细胞的25倍,中央细胞的19倍;但沉淀颗粒的直径仅为它们的2/3左右。助细胞中含钙最多的部位是丝状器和细胞核。授粉后1对姊妹助细胞均明显退化,钙含量显著增高,约为授粉前的24倍;钙颗粒明显减小,不足授粉前的1/3。讨论了钙的分布与助细胞的退化及其功能的关系。  相似文献   

5.
莴苣授粉前后柱头与花柱中钙的分布变化   总被引:2,自引:0,他引:2  
莴苣柱头呈两裂片状,有接受花粉的接受面和非接受面之分。授粉前后,柱头接受面乳突细胞的细胞壁中贮存丰富的细小钙颗粒,而非接受面的表皮细胞壁中的钙颗:粒很少。在花柱组织中钙的分布具有明显特征,在同一水平上,钙主要分布在引导组织的质外体中,如细胞壁和细胞间隙中,而在引导组织外的薄壁组织中钙主要分布在的细胞内液泡和细胞壁中以及维管束导管内。在花柱不同水平上,花柱中的钙呈现出梯度分布,顶端各组织中的钙颗粒较少,基部各组织中的钙颗粒较多。授粉后1h花柱基部组织的钙颗粒增多,钙梯度分布现象增强。花柱引导组织中的钙梯度分布很可能是吸引花粉管向下生长的原因。讨论了莴苣花柱引导组织中钙梯度分布特征和花粉管在其体内生长的关系。  相似文献   

6.
甘蓝油菜雌蕊中花粉管生长途径的钙离子定位   总被引:3,自引:1,他引:2  
用焦锑酸钾定位 Ca~(2 )的技术,证明了甘蓝油菜(Brassica napus)柱头乳突细胞的少量分泌物、柱头表皮下的引导组织细胞间隙、花柱引导组织细胞壁外表面和胞间隙的分泌物以及子房假隔膜分泌区的表皮细胞外和内部引导组织细胞壁外表面和胞间隙的分泌物中均有 Ca~(2 )沉淀存在,而花柱皮层薄壁细胞无此种现象。花粉管生长的整个途径中 Ca~(2 )的存在与花粉管在雌蕊中的定向生长有关。  相似文献   

7.
莴苣柱头呈两裂片状,有接受花粉的接受面和非接受面之分。授粉前后,柱头接受面乳突细胞的细胞壁中贮存丰富的细小钙颗粒,而非接受面的表皮细胞壁中的钙颗粒很少。在花柱组织中钙的分布具有明显特征,在同一水平上,钙主要分布在引导组织的质外体中,如细胞壁和细胞间隙中,而在引导组织外的薄壁组织中钙主要分布在的细胞内液炮和细胞壁中以及维管束导管内。在花柱不同水平上,花柱中的钙呈现出梯度分布,顶端各组织中的钙颗粒较少,基部各组织中的钙颗粒较多。授粉后1h花柱基部组织的钙颗粒增多,钙梯度分布现象增强。花柱引导组织中的钙梯度分布很可能是吸引花粉管向下生长的原因。讨论了莴苣花柱引导组织中钙梯度分布特征和花粉管在其体内生长的关系。  相似文献   

8.
陆地棉珠孔的结构及花粉管在其中的生长途径   总被引:1,自引:1,他引:0  
在大多数被子植物中,花粉管经珠孔进入胚珠进而实现受精,但珠孔结构及花粉管在其中的生长途径是植物受精生物学研究中较薄弱的一个环节。迄今仅在向日葵中从超微结构水平上作了详细的研究[1],因而需要扩大研究的对象。陆地棉花粉管生长所经雌蕊组织中,关于柱头、花柱[2,3]、珠心[4,5]和助细胞[6]的超微结构已有较详细的研究,但涉及珠孔这一环节,只有简单的描述[7]。本文报道我们在这方面的研究结果。材料和方法取陆地棉(GossypiumhirsutumL.)授粉前和授粉后22小时的胚珠,切除其合点端部分…  相似文献   

9.
荔枝雌蕊发育过程中钙分布变化与细胞程序性死亡   总被引:1,自引:0,他引:1  
应用焦锑酸钾沉淀法研究了荔枝雌花和雄花雌蕊发育过程中钙的分布变化。在大孢子母细胞阶段,雌花近珠孔内珠被细胞和花柱细胞的钙沉淀颗粒主要分布在细胞壁和细胞间隙,少部分在液泡;雌花花柱维管细胞中含有很多的钙沉淀颗粒;在雄花的近珠孔内珠被细胞钙沉淀颗粒大多在液泡中;雄花花柱细胞和维管细胞中钙沉淀颗粒很少。大孢子母细胞减数分裂后,雌花雌蕊继续发育,雄花雌蕊败育。雌花维管中的钙沉淀颗粒数量减少,可能被转运到将要发生花粉萌发和受精的部位。雌花近珠孔内珠被细胞壁的钙沉淀颗粒分布增加,花柱细胞从上(近柱头)到下(近子房)钙沉淀颗粒量递增。雄花近珠孔内珠被细胞发生程序性死亡:液泡中的钙进入细胞核启动细胞程序性死亡,核周隙与质膜腔形成连续的通道,钙在核与细胞质之间的流动不受限制;在特定的时间段,钙沉淀颗粒出现在线粒体、过氧化物体和线型内质网的外膜上。钙在细胞中重新分布可能触发和调节细胞程序性死亡的进程。缺乏钙沉淀颗粒的雄花花柱细胞迅速解体。  相似文献   

10.
用免疫金电镜法观察了大叶国花柱、珠孔及助细胞内玉米素(t-Z)、吲哚乙酸(IAA)、赤霉素(GA7一GA4)和脱落酸〖(+)ABA〗的分布。刚授粉地的花柱引导组织细胞内与胞间基质中t-Z较多、IAA、GA7/4、(+)ABA较少;授粉后24h(此时花粉管已穿过花柱中部),该部位t-Z显著减少,IAA略增加,GA7/4显著增加,而(+)ABA仍较少。授粉后24h,花柱中段薄壁组织细胞与胞间基质中IA  相似文献   

11.
水稻雌蕊与胚囊中钙的超微细胞化学定位   总被引:14,自引:2,他引:12  
用焦锑酸盐沉淀法对水稻(OryzasativaL.)授粉前后雌蕊和胚囊中的钙进行了超微细胞化学定位。结果表明,柱头乳突细胞表面和花柱薄壁细胞中均含钙沉淀;开花前1d,整个胚囊中含钙较少,两个助细胞中钙分布无差异;临近开花时,1个助细胞已退化,其钙含量明显增加;开花后6h,胚囊已受精,退化助细胞中钙含量进一步增加;受精前卵细胞中钙主要分布在液泡中,核和胞质中较少;受精后,其钙含量明显增加,主要分布于核中。重点讨论了钙与助细胞退化和卵细胞激活的关系。  相似文献   

12.
Jim Bell  Gary Hicks 《Planta》1976,131(2):187-200
Summary The pistil of tobacco (Nicotiana tabacum L. cv. Wisconsin 38) is comprised of two fused carpels. The stigma is bilobed, papillose, and at maturity is covered with a sticky exudate. The style is solid. Both stigma and style are made up of four tissue elements—epidermis, cortex, vascular, and transmitting tissue. Transmitting tissue in this species is chlorophyllous. Transmitting cells have thin primary walls and are separated by massive deposits of denselystaining amorphous material. The cells contain numerous mitochondria, dictyosomes, RER, amyloplasts, ribosomes, as well as crystal-containing microbodies and myelin-like formations. Observations are discussed in relation to other reports dealing with similar cell populations.Abbreviations A amyloplast - CO cortex - CCB crystal-containing bodies - D dictyosome - IS intercellular space - IM intercellular matrix - M mifochondrion - MY myelin formation - N nucleus - O ovary - P potysomes - PW primary wall - S starch grain - ST stigma - SV style - TT transmitting tissue - V vacuole - VB vascular bundle  相似文献   

13.
Structural and cytochemical details of the pistil and the interactionof pollen and pistil were studied in a non-pseudogamous apomict,Commiphorawightii.The anthers in the male and bisexual flowers producefunctional pollen grains. The stigma is of the wet and papillatetype. The style is typically solid with two strands of transmittingtissue that traverse the entire length of the style. There isa marked reduction in the area occupied by the transmittingtissue from the stigma to the base of the style. The cells ofthe transmitting tissue are isodiametric in transverse as wellas longitudinal section and do not form longitudinal files ofelongated cells as reported for other taxa. Proteins could notbe localized in the intercellular matrix. Although pollen grainsgerminate on the stigma, pollen tubes do not grow beyond theproximal one third of the style. Changed orientation of thecells of the transmitting tissue and absence of proteins inthe intercellular matrix could account for the failure of thepistil to support pollen growth.Copyright 1998 Annals of BotanyCompany Guggul, pollen-pistil interaction, non-pseudogamous apomict,Commiphora wightii, transmitting tissue  相似文献   

14.
The gynoecium of Phaseolus acutifolius var. latifolius, a self-compatible legume, is characterized by a wet non-papillate stigma, an intermeditae hollow/solid style type, and secretory cells on the ventral surface of the ovary which direct pollen tube growth. The stigma is initially receptive 5–6 days prior to anthesis. Production of stigmatic secretions, composed primarily of carbohydrates and lipids, fragment the cuticle covering epidermal cells of the stigma early in ontogeny; the lipidic aspect of the copious secretions apparently serves to inhibit desiccation after the cuticle is ruptured. Stylar canal development occurs as a combination of elongation of a basal canal present early in development, and dissolution of part of a solid transmitting tract tissue just below the stigma. Anthers dehisce and the tricolporate pollen is released onto the receptive stigma one day before anthesis. Following initial growth in intercellular spaces in the transmitting tract of the stigma, pollen tubes adhere to epidermal secretory cells along the ventral side of the stylar canal and upper ovary; here the transmitting tract is apparently limited in the number of tubes it can accommodate, providing a possible site of selection of male gametes.  相似文献   

15.
The relative importance of prezygotic mechanisms of gametophytic competition and selection are often unclear due to an absence of observations on the gynoecium and pollen tube growth in vivo. We used LM, SEM, and TEM to study the structure of the gynoecium and the path of pollen tube growth in Raphanus raphanistrum, a sporophytically self-incompatible annual. Wild radish has a papillate stigma and a solid style. A septum, which is characteristic of cruciferous gynoecia, is present in the ovary. After germination on the stigma, pollen tubes grow in the secretion of the transmitting tract of the style. The stylar secretion stains positive for acidic polysaccharides and insoluble carbohydrates, and negative for lipids and protein. In the ovary, the transmitting tissue is contained inside the septum. The secretion in the ovary stains positive only for acidic polysaccharides. Pollen tubes travel inside the septum as they enter the ovary and must exit to the surface of this tissue before ovule fertilization can occur. Pollen tube growth on the septum tracks the intercellular junctions of the septum epidermis where the secretion leaks out through a torn cuticle. Tubes must grow across the obturator before reaching the micropyle of an ovule. The temporal pattern with which tubes growing into the ovary exit the septum can contribute to the previously observed nonrandom patterns of fertilization (Hill and Lord, 1986).  相似文献   

16.
Summary The stigma of cotton (Gossypium hirsutum) is covered by unicellular hairs. The cytoplasm of these hairs degenerates before the stigma becomes receptive. The vacuole remains intact, but the hair cytoplasm becomes a mass of dark, amorphous material with only a few organelles still being visible. The rest of the stigma consists of thin-walled parenchyma cells with large vacuoles and large amounts of starch. The cells of the style are differentiated into a uniseriate epidermis, vascular tissue, a cortex of thin-walled, vacuolate parenchyma cells, and the transmitting tissue. This latter tissue occupies the center of the style and consists of thick-walled cells with few vacuoles. The cells are rich in starch, ribosomes, endoplasmic reticulum and dictyosomes. They also contain deposits of calcium salts in the form of druses. The pollen germinates on the stigmatic hairs, grows down the outside of the hair and between the cells of the stigma to the transmitting tissue of the style. There the tubes grow between the walls of the cells but do not enter the cells themselves. Some transmitting cells adjacent to the pollen tube degenerate after the tip of the pollen tube has grown past them. However, not all degenerate, and those that do show no fixed spatial relationship to one another. The cells which do degenerate follow a characteristic pattern of breakdown. No ultrastructural evidence was found for the secretion of hydrolytic enzymes by the pollen tube.  相似文献   

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