共查询到18条相似文献,搜索用时 125 毫秒
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采用石蜡切片、半薄切片、扫描电镜技术对无距虾脊兰不同时期的子房(蒴果)进行研究.结果表明:(1)无距虾脊兰授粉后19d,胎座上分化出上万个胚珠原基,这些胚珠原基由1列细胞外包1层表皮细胞构成,其中胚珠原基内部顶端的细胞分化为孢原细胞,授粉后45 d,孢原细胞发育分化为大孢子母细胞.(2)无距虾脊兰成熟胚珠为倒生胚珠,双珠被,薄珠心,胚囊发育为蓼型,且胚珠的发育即便在同一个果实内也是不同步的.(3)受精后合子经过一次不均衡横裂形成基细胞和顶细胞;基细胞不参与胚体构成,分化为单细胞的胚柄,最后退化消失;顶细胞经多次分裂形成原球胚,胚胎发育类型为石竹型.(4)成熟种子呈纺锤形,由球形胚和内外双层种皮构成,双层种皮分别由内外珠被发育而来. 相似文献
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为明确扇脉杓兰花粉形态结构及雄性生殖特性,利用扫描电镜、透射电镜和荧光显微镜对花粉形态和超微结构及花粉管生长过程进行观察。结果表明:(1)扇脉杓兰单粒花粉长球形,表面光滑无特征纹饰,有少量胶黏物质,一些表面有2个或以上的深凹陷,凹陷内有球形突起的内容物。(2)花粉壁分为由棒状的基柱小单元组成的外壁和纤维素果胶组成的内壁,有覆盖层;生殖细胞近圆形,细胞核大而致密;营养细胞多弧形,核质分散;花粉粒细胞质含有大量的线粒体、质体和小泡等细胞器,淀粉、蛋白质和多糖含量丰富。(3)花粉管萌发后沿子房壁方向伸长,授粉20d花粉管伸长生长并不明显,授粉30d伸长的花粉管中出现大量胼胝质塞,并且伸长方向转为胚珠中间,花粉管逐渐接近胚珠,在授粉后50d基本完成受精作用。研究认为,扇脉杓兰花粉发育正常,不阻碍有性生殖过程。 相似文献
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利用石蜡切片技术对百合科植物黄花油点草[Tricyrtis maculata(D.Don)Machride]双受精、胚及胚乳发育进行了研究,以明确其胚胎发育的特征,为百合科植物的系统研究提供生殖生物学资料。结果表明:(1)黄花油点草为珠孔受精;进入胚囊的2枚精子分别与卵细胞和中央细胞进行正常的双受精,其受精作用属有丝分裂前型。(2)受精后的初生胚乳核立即分裂,其发育方式为核型胚乳;早期的游离胚乳核沿胚囊的边缘分布,胚囊中央部位主要为胚乳细胞质,随着游离胚乳核数量的增加,胚乳核慢慢充满整个胚囊;当发育至球形胚早期阶段,在各胚乳核周围产生胚乳细胞壁,形成完整的胚乳细胞。(3)合子有较长的休眠时间,胚的发育方式为茄型;合子第一次有丝分裂为横裂,分裂后形成基细胞和顶细胞;基细胞经过3次横裂,形成一列胚柄细胞;顶细胞经过分裂形成胚体,依次形成球形胚、棒状胚和盾形胚。(4)种子成熟时胚无器官分化;成熟种子由种皮、胚和胚乳三部分组成。 相似文献
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本文研究甘薯的胚胎发育及果实的形成。授粉后10—30分钟花粉粒在柱头上萌发,2小时花粉管抵达珠孔,5—12小时左右完成双受精。授粉后12小时胚乳核开始第一次有丝分裂;15小时合子开始第一次有丝分裂,18小时形成顶细胞和基细胞;尔后分化成原胚,球形胚,心形胚,鱼雷形胚,成熟胚。在适宜温度下21天左右胚胎发育完成。果为蒴果,其内含有1—4粒种子。授粉后3—4天子房开始膨大形成果实,21—30天蒴果与种子成熟。 相似文献
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五唇兰雌配子体发育和胚胎发生的研究 总被引:11,自引:2,他引:11
五唇兰的胚珠倒生型,具薄珠心,两层珠被。胚囊发育为双孢子葱型,成熟胚囊8核。从传粉到受精约50d,正常双受精。胚具5-6细胞的胚柄,种子成熟时胚柄及胚乳核消失,成熟种子只具单层细胞的种皮和一个未分化的珠珠形胚。 相似文献
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墨兰雌配子体和胚胎发生 总被引:6,自引:1,他引:5
墨兰的胚珠倒生型,具薄珠心和二层珠被。胚囊发育为葱型,成熟胚囊为8核,从传粉型受精约100d,正常双受精。初生胚乳细胞分裂为具2-6个核的胚乳。胚具5-6细胞的胚柄。传粉到种子成熟约8个月,成熟种子只具单层细胞的种皮和一个未分化的球形胚,胚柄及胚乳都消失。 相似文献
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研究了宁夏枸杞不同发育时期果实和种子形态的变化特征及种子内胚的变化.结果表明:宁夏枸杞果实的生长发育曲线为花后8d以前为其第一次快速生长期,花后8~24 d为缓慢生长期,花后24~34 d是第二次快速生长期,属于典型的双“S”型.宁夏枸杞种子的生长曲线既不属于单“S”型,也不属于双“S”型,表现为果实的第一次快速生长期同样也是种子的快速生长期,但种子完成的生长比例快于果实完成的生长比例,此期种子内的胚乳生长快;当果实进入缓慢生长期,种子也表现出缓慢生长的特性,且种子长度和宽度的增加速率均显著低于果实第一次快速生长期种子的生长速率,此期种子主要进行胚的分化;在果实的第二次快速生长期,果实体积和重量迅速增加,而种子的长度和宽度增加很少,此期种子内仅胚进一步增大,从而反映出宁夏枸杞果实的发育与种子发育有一定的相关性. 相似文献
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华山新麦草胚和胚乳的发育研究 总被引:2,自引:2,他引:2
采用常规石蜡切片法,观察了华山新麦草胚和胚乳的发育过程,结果表明,华山新麦草胚和胚乳的发育过程与一般禾本科植物基本相同,胚胎发生属紫宛型,顶细胞和基都参与胚体的形成,胚胎发育经过二细胞原胚,多细胞原胚,球形原胚,梨形原胚,分化胚和成熟胚阶段,成熟胚具有胚根,胚芽,盾片,胚牙鞘,胚根鞘,外胚叶等典型禾本科植物成熟胚的结构,胚乳发育类型为核型,包括游离核阶段,细胞化阶段和生长成熟阶段,待大量游离核形成之后才形成细胞壁,紧贴胚囊的一层胚乳细胞最后形成种子的糊粉层,其余的胚乳细胞最后充满淀粉粒,其特点为:(1)有双球形原胚的现象;(2)反足细胞解体较早;(3)胚乳游离核时期和细胞时期胚乳细胞核的核仁多样。 相似文献
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通过qRT-PCR对毛竹相关成花基因PheTFL1的表达进行研究,为毛竹开花机理的研究提供理论依据.从毛竹UBC18、PP2A和EF1α等9个候选内参基因中筛选出在叶、幼嫩花序、花序轴、枝、竹青等11个组织器官中都稳定表达的PP2A用于毛竹PheTFL1基因qRT-PCR结果的校正.结果显示:PheTFL1基因在开花竹叶、枝和竹青中低丰度表达,与未开花竹差异不显著,但在花和花序轴中高丰度表达;在实生苗叶和根中高丰度表达,在实生苗茎中低丰度表达.PheTFL1基因在具有分生能力的幼嫩组织中高丰度表达,说明其不仅参与花发育的调控,还参与了分生组织生长的调控. 相似文献
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西瓜胚和胚乳的发育 总被引:1,自引:0,他引:1
应用显微技术对西瓜胚和胚乳的发育过程进行了观察并分析了西瓜胚珠败育的原因。西瓜胚发育属紫菀型。合子第一次分裂为不均等分裂 ,形成的基细胞体积明显较顶细胞大 ,两细胞均含有多个液泡。原胚发育过程中没有明显的胚柄。最外层的原胚细胞 ,与胚乳细胞相邻的壁上被胼胝质物质包围 ,且无外连丝存在 ;与胚囊壁相接的壁上无壁内突结构。胚的子叶体积增长的同时 ,子叶细胞内积累蛋白质和脂类物质 ,多糖物质的含量下降。胚乳发育属核型 ,在球形胚期开始自珠孔端向合点端细胞化 ,胚子叶分化出后开始自珠孔端向合点端退化。胚乳合点端在球形胚早期形成发达的胚乳吸器 ,开始呈游离核状态 ,后细胞化 ,在心型胚期之后退化。 相似文献
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Fertilization of the female gametophyte in angiosperm plants initiates a process of coordinated development of embryo, endosperm, and seed coat that ensures the production of a viable seed. Mutant analysis has suggested that communication between the endosperm and the seed coat is an important determinant in this process. In addition, cell groups within the embryo, derived from the apical and from the basal cell, respectively, after zygote division, concertedly establish a functional root meristem, and cells in the apical region of the embryo are hypothesized to repress cell divisions in the basal cell-derived suspensor. The available evidence for these interregional communication events mostly relies on the analysis of mutant phenotypes in Arabidopsis. To provide independent and direct evidence for communication events, we used conditional domain-specific expression of the diphtheria toxin A chain (DTA) in developing Arabidopsis seeds. By using a collection of cell- or tissue-type-specific promoters, we show that the mGAL4:VP16/UAS two-component gene expression allows reliable spatiotemporal and conditional expression of the GFP:GUS reporter and the DTA gene in the developing embryo and endosperm. Expression of DTA in the protoderm of the embryo proper led to excessive proliferation of suspensor cells, sometimes resulting in the formation of secondary embryos. Endosperm-specific expression of DTA caused complete cessation of seed growth, followed by pattern defects in the embryo and embryo arrest. Taken together, the results presented here substantiate the evidence for and underline the importance of interregional communication in embryo and seed development and demonstrate the usefulness of conditional toxin expression as a method complementary to phenotypic analysis of developmental mutants. 相似文献
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P. godefroyae is one of the diandrous species of rather primitive orchids. The cytokinesis of PMCs conforms to simultaneous type. The arrangement of microspores in a tetrad is tetrahedral or isobilateral. The first mitosis in a pollen grain is unequal and results in the formation of two unequal cells. The small one is the generative cell and the large one, the vegetative cell. The wall material between them is callose which is easily detectable under the fluorescence microscope. When the generative cell detaches from the microspore wall and migrates into the cytoplasm of the vegetative cell, the callose wall disappears and a thin PAS-positive wall Was observed around the generative cell. The PAS-positive wall remains untill anthesis. The tapetum is of secretory type and its cells are binucleate. With the degradation of the tapetal cells, they discharge a lot of yellow, amorphous, sticky mass into the pollen sac. The pollens distribute in it to form a sticky pollen mass. The ovule has single integument and one layered nucellus around the magaspore mother cell. The mature embryo sac consists of eight or six cells and conforms to the Allium type. The interval between pollination and fertilization is about 45 days and the normal double fertilization has been observed. The primary endosperm cell undergoes one division only and results in the formation of 2 nucleate endosperm. The dormancy period of zygote lasts 45–50 days. During the development of the embryo, a suspensor consisting of a row of two to four cells is formed. It takes more than six months from the pollination to the maturation of the seed. The embryo in the mature seed is just an ellipsoidal mass of 120–140 cells without differentiation. The endosperm and suspensor are all degenerated in the mature seed. 相似文献
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This paper deals with the development of the embryo and the formation of the fruit for lpomoea batatas Lam. based on the observation of its flower bud differentiation, megasporogenesis and the development of the female gametophyte, microsporogenesis and the development of the male gametophyte. The pollen grain germinated on the stigma about 10–30 min. after pollination. The pollen tube penetrated the transmitting tissue in the middle of the style between 30–60 min. after pollination. After 2 hours the tip of the pollen tube reached the micropyle. Double fertilization completed after 5 or 12 hours then the zygote and the endosperm nucleus formed. The first mitotic division of the endosperm nucleus takes place about 12 hours after pollination, earlier about 3 hours than the first division of the zygote, the latter gives rise to a terminal cell and a basal cell by a transverse division. The second division is transverse in the terminal cell, forming two cells. The basal cell divides longitudinally into two adjoining cells. The terminal cell becomes the proembryo with four cells, and at the same time, the basal cell becomes the suspensor with four cells after 41–52 hours. The proembryo gradually becomes globular, cordate and torpedo-shaped, respectively about 96–120, 144–156, 168-192 hours after pollination. The cotyledons of the embryo gradually prolongate 10 days after pollination. The embryo almost completes its development within 21–30 days after pollination. he fruit is a capsule. The ovary gradually swells 3–4 days after pollination, then forms fruit, which ripens about 21–30 days after pollination, 2R.=4–8 mm. A fruit contains 1–4 seeds. 7,000 fruits were analysed in 1983, the results are as follows: 64.6% of then with only one seed in a capsule, 31.8% two seeds, 5.48% three seeds and 0.1% four seeds. The seeds are small, 2R. from 3.84 mm to 2.84 mm. The shape and the weight of the seeds are different from each other because of difference in number of seeds within a capsule. 相似文献
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The endosperm is nuclear, cell wall initiation starts 5 days after pollination. During early stages endosperm nuclei exhibit synchrony in their division. Embryogeny is of the Asterad type. A7-to 10-celled suspensor persists up to the dicot stage of the embryo. Both integuments contribute towards formation of the seed coat. 30 days after pollination seeds become mature. Their endosperm is scanty and persists as a thin layer between the folds of the cotyledons. Nucellus remnants are present towards the funicular side. 相似文献
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利用常规石蜡制片技术对北柴胡胚和胚乳的发育及对其种子萌发的影响进行了观察。结果表明北柴胡胚的发育属于茄型,基细胞进行一次横分裂后不再分裂,因而胚柄不发达,且很早解体。胚乳的发育属于核型,初生胚孔核的分裂远远早于受精卵的分裂。对果实采收时期胚发育状况进行统计发现,在被测采收期果实中有20%的果实的胚处于球形胚阶段,70%处于心形胚,只有10%处于鱼雷胚,说明北柴胡种子采收时胚处于不同的发育阶段,存在形态后熟现象,这是北柴胡种子萌发难、萌发率低且出苗不整齐的主要因素。 相似文献
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为探明种皮和胚乳是否是限制桃儿七种子萌发的主要因素,利用组织切片和显微技术,对桃儿七种子及其不同萌发期(1、7、14、21、28 d)解剖结构和播种后一定时期内(7~210 d)的植株生长形态进行观察。桃儿七种子由种皮、胚乳和胚构成。种皮包括外种皮和内种皮,外种皮致密规整,由外至内分别为栅状石细胞和表皮层细胞,内种皮由5~6层海绵细胞组成。胚乳占种子体积的绝大部分,包括珠孔胚乳和外胚乳。胚由胚根、胚轴和子叶组成,被致密种皮、多层珠孔胚乳和外胚乳包围。萌发期1~7 d胚根和胚轴开始伸长,7~14 d两片子叶分离,14~21 d胚根突破珠孔胚乳和种皮,21~28 d胚根、胚轴和子叶继续扩张伸长。种子播种210 d后可平均形成3片功能真叶和5条不定根。致密种皮(物理休眠)和多层胚乳(机械休眠)是限制桃儿七种子萌发的两个主要因素。 相似文献