Populations of plastids and mitochondria during male reproductive cell maturation in Nicotiana tabacum L.: A cytological basis for occasional biparental inheritance

The dynamics of plastid and mitochondrial populations in male reproductive cells of tobacco (Nicotiana tabacum L.) were examined during development using serial ultrathin sections and transmission electron microscopy to reconstruct 58 generative cells and 31 sperm cells at selected stages of maturation from generative cell formation through gametic fusion. The first haploid mitosis resulted in incomplete exclusion of plastids providing an average of 2.81 plastids and 82.7 mitochondria for each newly formed generative cell. During generative-cell maturation, plastid content decreased to an average of 0.48 plastids/generative cell at anthesis owing to autophagy of organelles. Plastids were present in low frequency within generative and sperm cells in the pollen tube and appeared to be transmitted, according to observations immediately prior to fertilization. This forms a cytological basis for genetic reports of occasional biparental plastid inheritance. In contrast, mitochondria were transmitted in larger numbers, and approximately 80 mitochondria per generative cell or sperm cell pair were retained throughout development. This provides a potentially stable source for the transmission of male mitochondrial DNA, if present at fertilization.Abbreviations GC generative cell - SC sperm cell We thank Dr. Frank J. Sonleitner, for helpful suggestions on the statistical calculations and Dr. Bing-Quan Huang for technical assistance in the preparation of embryo sacs during fertilization. This research was supported in part by U.S. Department of Agriculture grant 91-37304-6471. We gratefully acknowledge use of the Samuel Roberts Noble Electron Microscopy Laboratory of the University of Oklahoma.     

The Cytological Mechanism of Biparental Cytoplasmic Inheritance in Pelargonium hortorum -Ultrastructural and DNA Fluorescence Studies of Male and Female

Electron microscopic investigation has demonstrated that plastids and mitochondria are conserved in the generative cell, sperm cells and egg cell of Pelargonium hortorum Bailey. The plastids in the generative cell which contain starch for a short period, gradually changed to proplastids during the maturation of generative cell. The plastids in the sperm cells are large and numerous the characteristics of dense matrix and an abundant endomembrane systems. These plastids always appear ringlike in cross section. In the generative cell and sperms, the spherical or rod-shaped mitochondria are smaller than the.plastids and remain unchanged during the development process from generative cell to sperm cells. DNA filaments are visualized in the transparent central zone of the mitochondria. In the egg cell, plastids are more abundant than mitochondria. The structures of the plastids and mitochondria are obviously different from those in the sperm cell. Most of the plastids are irregularly rod-shaped and contain starch, the mitochondria are about 3 times larger than those in the sperm cells. Most of them are cup-shaped as proved by successive sections. DNA epifluorescence study demonstrated that DNA nucleoids are present in both plastids and mitochondria of the egg, generative cell and sperm cells. In the sperm cells, there is no ringlike DNA nucleoid as is existed in the egg cell. This study has defined the characteristics of the plastids and mitochondria in both male and female gemates of P. hortorurn. The results are essential contributions for further investigation of the biparental organelle transmission in the zygote and proembryo.     

天竺葵质体和线粒体双亲遗传的细胞学机理——雄性和雌性配子超微结构和DNA荧光的研究

天竺葵（Ｐｅｌａｒｇｏｎｉｕｍ ｈｏｒｔｏｒｕｍ Ｂａｉｌｅｙ）生殖细胞和精细胞在发育中始终存在质体和线粒体。在精细胞中,质体的体积大、数量多,具基质浓厚和在切面上多为环状的特点。线粒体在生殖细胞和精细胞中没有差异,体积较质体小得多,球形或杆状,边缘染色较深。在卵细胞中质体的含量比线粒体丰富,这两种细胞器的结构形态与精细胞的有明显的差异。细胞的质体多呈不规则的棒状和含淀粉粒。线粒体比精细胞的大２—３ 倍,许多为环状。ＤＮＡ 荧光的检测证明了在生殖细胞、精细胞和卵细胞中存在质体和线粒体类核。卵中的环状线粒体类核的形态在精细胞中是不存在的。本研究确定了雄性和雌性配子的质体和线粒体在结构形态上各具特点,可作为鉴别它们的标记,从合子中查明雄性质体和线粒体是否传递,以及在胚胎发育的早期雌雄亲本来源的细胞器的动态     

川百合精细胞的超微结构(英文)

川百合与朱顶红花粉管中的生殖细胞分裂行为非常不同。诸如：染色体行为、微管的组织形式和分布、包括着丝点、微管形成的时间,纺锤体的形状及间期周质微管网络在生殖细胞分裂过程中消失与否等。但这两种细胞具有某些共性,包括在有丝分裂前期缺乏早前期带微管（ＰＰＢ）,末期形成细胞板等。这两种植物精细胞的结构应有较大差异。我们曾报道了朱顶红精细胞的超微结构,本文详细从超微结构方面描述了川百合精细胞的特征。川百合花粉管的萌发采用半离体活体培养方式。１１～１８小时后,ＤＮＡ荧光染料Ｈｏｅｃｈｓｔ３３２５８和醋酸地衣红染色检查花粉管中生殖细胞和精细胞发育时期。切取含有分裂的生殖细胞和精细胞的花柱部分,按曾报道的方法固定、包埋、切片、染色及观察。在所有检查的花粉管中,两精子均前后排列（Ｆｉｇ．１～３）,营养核前导并靠近花粉管顶端（Ｆｉｇ．２,３）。Ｈ３３２５８染色可见两精核间以ＤＮＡ联系（Ｆｉｇ．３）。两个新形成的精核彼此分离（Ｆｉｇ．１）,后来又相互靠近,并维持一定距离（Ｆｉｇ．３）。偶尔一对精子与营养核靠近（Ｆｉｇ．２）。两精细胞被一共同的细胞壁连接,他们不仅被自己的质膜也被营养细胞的质膜包围构成周质。周质平坦光滑。共同壁横向     

菜豆花粉发育中质体和线粒体及其DNA存在的状况——着重阐明质体遗传的细胞学基础

应用电镜和DNA的DAPI荧光检测技术研究了菜豆(Phaseolus vulgaris L.)小孢子/花粉发育中质体和线粒体及其DNA存在的状况。观察表明:在小孢子分裂时质体全部分配到营养细胞中,初形成的生殖细胞已不含质体。线粒体和质体的DNA在花粉发育中也先后降解,生殖细胞从刚形成时发育至成熟花粉时期这两种细胞器DNA均不存在。研究结果为菜豆质体母系遗传提供了确切的细胞学证据。遗传分析的研究曾确定菜豆质体为双亲遗传,对与本研究结论不同的原因进行了讨论。     

Cytological Basis of Plastid Inheritance in Phaseolus vulgaris-Investigations of Plastids,Mitochondria and Their DNA Nucleoids During Pollen Development

Electron microscopic and DNA fluorescence microscopic observations of the plastids, mitochondria and their DNA in the developing pollen of Phaseolus vulgaris L. have demonstrated that the male plastids were excluded during microspore mitosis. The formed generative cell was free of plastids because of regional localization of plastids in early developing microspore and the extremely unequal distribution during division. The fluorescence observations of DNA showed that cytoplasmic (plastid and mitochondria) nucleoids degenerated and disappeared during the development of microspore/pollen, and were never presented in the generative cell at different development stages. These results provided precise cytological evidence of maternal plastid inheritance in Phaseolus vulgaris, which was not in accord with the biparental plastid inheritance identified from early genetic analysis. Based on authors' previous observations in a variety of common bean that the organelle DNA of male gamete was completely degenerated, the early genetic finding of the biparental plastid inheritance was unlikely to be effected by genotypic difference. Thus those biparental plastid inheritance might be caused by occational male plastid transmission, and plastid uniparental maternal inheritance was the species character of Phaseolus vulgaris.     

玉竹雄配子的发育——着重阐明质体在生殖细胞和营养细胞中的分布和变化

玉竹(Polygonatum simizui Kitag)小孢子在分裂前,质体极性分布导致分裂后形成的生殖细胞不含质体,而营养细胞包含了小孢子中全部的质体。生殖细胞发育至成熟花粉时期,及在花粉管中分裂形成的两个精细胞中始终不含质体。虽然生殖细胞和精细胞中都存在线粒体,但细胞质中无DNA类核。玉竹雄性质体的遗传为单亲母本型。在雄配子体发育过程中,营养细胞中的质体发生明显的变化。在早期的营养细胞质中,造粉质体增殖和活跃地合成淀粉。后期,脂体增加而造粉质体消失。接近成熟时花粉富含油滴。对百合科的不同属植物质体被排除的机理及花粉中贮藏的淀粉与脂体的转变进行了讨论。     

Heritable paternal cytoplasmic organelles in alfalfa sperm cells: ultrastructural reconstruction and quantitative cytology.

Sperm cells within pollen grains and pollen tubes of alfalfa (Medicago sativa L.) were observed at the ultrastructural level, and their plastid DNA was detected by DAPI (4,6-diamidino-2-phenylindole) staining. One sperm pair within the pollen grain and three sperm pairs within pollen tubes were reconstructed in three-dimensions from serial ultrathin sections. The two sperm cells are linked by cytoplasmic bridges in both pollen grains and tubes, and the vegetative nucleus is closely associated with the sperm cells within the pollen tube. The number of plastids and plastid nucleoids (DNA aggregates) in the sperm cell pair, collectively, is not significantly different from that in the generative cell; however, over 60% of the sperm cell plastids contain no DNA detectable with DAPI. The mean number of mitochondria in sperm cells is reduced from that in the generative cell (from 54 to 17), which suggests that paternal mitochondrial inheritance probably does not occur in the genotype investigated. Sperm cells of a pair may vary in their shape within the pollen grain and tube, but the number of plastids and mitochondria is not significantly different between the sperm cells. Therefore, heterospermy is not a factor determining cytoplasmic inheritance patterns in this species.     

豌豆生殖细胞的发育—着重论述质体母系遗传的细胞学基础

超微结构的研究证明,豌豆（Ｐｉｓｕｍ ｓａｔｉｖｕｍ Ｌ．）生殖细胞自形成直至成熟花粉时期,始终存在少量质体和较多的线粒体。ＤＮＡ 荧光的观察表明,在发育早期的生殖细胞中不含细胞质ＤＮＡ 类核,但在成熟花粉的生殖细胞中有许多的类核。在花粉离体萌发过程中,随着花粉管的生长,生殖细胞中的类核逐渐降解。在花粉培养２４ ｈ 后,生殖细胞的类核全部消失。研究结果确定了豌豆质体母系遗传的细胞学基础,支持遗传分析及ＲＦＬＰ研究的结论,阐明了过去在细胞学上认为是双亲遗传的判断不正确的原因     

Studies of Generative Cell Development in Pisum sativum--With Special Reference to Cytological Basis of Plastid Maternal Inheritance

It was proved by ultrastructural observations that few plastids and abundent mitochondria were ever present in the generative cell of Pisurn sativurn L. from its initiation to maturation. Fluorescence observations of DNA showed that many cytoplasmic DNA nucleoids were present in generative cell of mature pollen, but none in the early developing generative cell. During the germination of mature pollen in vitro, the cytoplasmic DNA nucleoids of the generative cell in the pollen tube degenerated gradually following the growth of the pollen tube and disappered completely 24 h after germination. The results provided a cytological basis for confirming the conclusion of plastid maternal inheritance in P. sativurn obtained from genetic study, and resolved the contradiction between results from cytological observation and genetic or RFLP analysis.     

Isolation and Purification of Viable Sperm Cells from Stored Bicellular Pollen of Lilium davidii Duch.

A successful mass isolation of viable sperm cells from stored bicellular pollen of Lilium davidii Duch. was reported. When fresh pollen was cultured in BKS 15 medium, 87 % germinated in which the generative cells of the fresh pollen underwent mitosis and formed sperm cells within 28 hours. For pollen stored at -20℃ and -70℃ for 6 months, only less than 20 % germinated; but the germination percentage rose to 80 % after they have been hydrated and gradually warmed. Pollen grains of L. davidii which have been stored at -70 ℃ for 6 months, after being thawed were firstly germinated in a 15% sucrose medium for 28 hours, and then osmotically shocked with 10 % sucrose Solution. The solution was later adjusted to a final sucrose concentration of 15%. After density gradient centrifugation, 4 mL suspension of purified sperm cells with a density of 6 × 106 cells/mL were obtained at the interphase of 5%—15% percoll, with a 12% yield of viable sperm cells. The purified sperm cells had a diameter of 13—15 μm and reacted positive to fluorochrome, indicating that they have intact plasma membrane.     

被子植物质体遗传的细胞学研究

植物细胞质遗传涉及细胞质中含DNA的两种细胞器——质体和线粒体从亲代至子代的传递。相对来说线粒体遗传的研究远不及质体的多,这可能是线粒体这种细胞器缺乏合适的表型突变体之故。高等植物质体遗传的研究历史可追溯到本世纪初在杂交试验中对叶色遗传的非孟德尔定律的发现,Baur在马蹄纹天竺葵(Pelargonium zonale)中从叶色突变体(白化体)的杂交遗传分析,发现了双亲质体遗传;而Correns在紫茉莉(Mirabilis jalapa)中则发现了单亲母本质体遗传(见Kuroiwa)。此后,对质体基因组突变性状遗传分析的研究,大量的资料说明了在被子植物中存在双亲质体遗传和单亲母系质体遗传两种类型,而后一种占大多数,仅少数是比较有规律的为双亲质体遗传或偶尔是双亲质体遗传。几十年来应用遗传分析的方法对被子植物质体遗传的研究,着重于揭示不同植物种质体的遗传是单亲母系或是双亲质体传递,以及探索杂种核基因对质体传递方式的影响。     

Reduction in amounts of mitochondrial DNA in the sperm cells as a mechanism for maternal inheritance in Hordeum vulgare

It is known that extranuclear organelle DNA is inherited maternally in the majority of angiosperms. The mechanisms for maternal inheritance have been well studied in plastids but not in mitochondria. In the present study we examined the mitochondrial DNA in the male reproductive cells of Hordeum vulgare L. by immunoelectron microscopy. Our results show that the number of anti-DNA gold particles on sections of sperm cell mitochondria decreased by 97% during pollen development. The reduction occurred rapidly in the generative cells and subsequently in the sperm cells, concomitant with a remarkable reduction in mitochondrial volume. It seems that the copy numbers of mitochondrial DNA were reduced in the male reproductive cells, which may be a possible mechanism by which paternal transmission is inhibited. Unlike mitochondria, plastids are excluded from the generative cells during the first pollen mitosis. These data suggest a mechanism for maternal inheritance of mitochondria in angiosperms and for independent control of inheritance of mitochondria and plastids in H. vulgare.     

Ultrastructural and DNA Epifluorescence Observations of the Sperm Cells of Rhododendron-- with Emphasis on Biparental Plastid Inheritance

The mature pollen grains of Rhododendron mucronulatum Turcz. conform to the 2-celled type. Sperm cells differentiated within the pollen tube about 24 hours after germination in vitro and paired together, one of which being linked with the vegetative nucleus, forming a male germ unit (MGU). Abundance of plastids, mitochondria, microtubules and single-membrane-bounded vesicles could be visualized in each sperm cell, however, endoplasmic reticulum and Golgi apparatus were scarce. The electron-dense plastids with normal structure gave ring-like or dumbbell appearance in sections. Mitochondria were smaller and less electron-dense' in contrast to the plastids. DNA epifluorescence technique revealed that the generative and sperm cells contained numerous organelle nuclei (nucleoids). There was no difference in nucleoid number between the two sperm cells in a pollen tube. The results confirmed the possible existance of cytoplasmic inheritance potential of the male gametes of Rhododendron.     

Western white pine (Pinus monticola Dougl.) reproduction: II. Fertilisation and cytoplasmic inheritance

Fertilisation and proembryo development are described from transmission electron micrographs emphasising the origin and fate of the maternal and paternal mitochondria and plastids. During central cell and egg development mitochondria migrate toward the nuclei, forming a perinuclear zone consisting predominantly of maternal mitochondria and polysomes. At the same time, maternal plastids transformed and at fertilisation are excluded from the neocytoplasm. The pollen tube releases two sperm nuclei into the egg with cytoplasm from the generative cell and the tube cell. The leading sperm nucleus fuses with the egg nucleus and a small number of paternal mitochondria and plastids are taken into the perinuclear zone. The second sperm nucleus degenerates. As the zygote nucleus undergoes mitosis followed by free nuclear division and nuclear migration to the chalazal end of the archegonium, maternal and paternal organelles intermingle within the neocytoplasm. The result is paternal inheritance of plastids and biparental, but predominantly maternal, inheritance of mitochondria. This pattern is consistent within the Pinaceae but differs from some other conifer families. Received: 9 December 1999 / Revision accepted: 30 April 2000     

兰州百合精细胞表膜上存在被牛精子抗体识别的抗原决定簇

以兔抗牛精子 Ig G为一抗 ,对植物精细胞蛋白进行 Western blot分析 ,发现兰州百合 (Liliumdavidii Duch.)精细胞和生殖细胞中各有一分子量为 64k D的蛋白显示阳性反应 ;在玉米 (Zea mays)精细胞蛋白中也发现了阳性反应条带 ,其分子量为 65 k D和 2 2 k D;而兰州百合花丝、花药壁和玉米黄化苗的蛋白中均没有阳性条带。用兔抗牛精子 Ig G对兰州百合精细胞进行间接免疫荧光标记 ,结果表明在兰州百合精细胞表面 ,有兔抗牛精子 Ig G的识别位点。根据以上结果 ,作者认为植物精细胞中有与动物精子相同或相似的抗原决定簇 ,它 (们 )主要分布于精细胞表膜上 ,并为精细胞所特有     

杜鹃精细胞的超微结构及DNA荧光观察——着重阐明质体双亲遗传的细胞学基础

迎红杜鹃 ( Rhododendron mucronulatum Turcz.)的成熟花粉为二细胞型 ,精细胞在花粉管中形成。花粉管中的两个精细胞及与营养核之间互相联结 ,形成雄性生殖单位。两个精细胞的细胞质中均含有丰富的细胞器 ,包括质体、线粒体、小泡及微管 ,内质网和高尔基体稀少。具正常结构的精细胞质体在切面上多呈环形或哑铃形 ,内膜不发达 ,基质电子密度高。线粒体为球形或棒状 ,基质电子密度较低。 DNA特异性荧光染色显示 ,生殖细胞及精细胞中均含有大量类核 ( nucleoid) ,两个精细胞中的类核数量无明显差异。结果证明了杜鹃精细胞中存在大量具 DNA的可遗传细胞器 ,为杜鹃属植物的双亲细胞质遗传方式提供了细胞学证据。     

Preferential degradation of plastid DNA with preservation of mitochondrial DNA in the sperm cells ofPelargonium zonale during pollen development

Summary In the present study, we studied changes in organellar DNA in the sperm cells of maturing pollen ofPelargonium zonale, a plant typical to exhibit biparental inheritance, by fluorescence microscopy after staining with 4,6-diamidino-2-phenylindole (DAPI) and by immunogold electron microscopy using anti-DNA antibody. Fluorescence intensities of DAPI-stained plastid nuclei in generative and sperm cells at various developmental stages were quantified with a video-intensified microscope photon counting system (VIMPCS). Results indicated that the amount of DNA per plastid in generative cells increased gradually during pollen development and reached a maximum value (about 70 T per plastid; 1 T represents the amount of DNA in a particle of T4 phage) in young sperm cells at 5 days before flowering. However, the DNA content of plastids was subsequently reduced to about 20% of the maximum value on the day of flowering. Moreover, the DNA content of the plastid further decreased to 4% of the maximum value when pollen grains were cultured for 6 h in germination medium. In contrast, the amount of DNA per mitochondrion did not decrease significantly around the flowering day. Similar results were also obtained by immunogold electron microscopy using anti-DNA antibody. The density of gold particles on plastids decreased during pollen maturation whereas labelling density on mitochondria remained relatively constant. The number of plastids and mitochondria per generative cell or per pair of sperm cells did not change significantly, indicating that the segregation of DNA by plastid division was not responsible for the decrease in the amount of DNA per plastid. These results indicate that the plastid DNA is preferentially degraded, but the mitochondrial DNA is preserved, in the sperm cells ofP. zonale. While the plastid DNA of the sperm cells decreased before fertilization, it was also suggested that the low DNA contents that remain in the plastids of the sperm cells are enough to account for the biparental inheritance of plastids inP. zonale.Abbreviations DAPI 4,6-diamidino-2-phenylindole - VIMPCS video-intensified microscope photon counting system     

Ultrastructural studies on plastids of generative and vegetative cells inLiliaceae 3. Plastid distribution during the pollen development inGasteria verrucosa (Mill.) Duval

Summary This paper describes the development of pollen grains ofGasteria verrucosa from the late microspore to the mature two-cellular pollen grain. Ultrastructural changes and the distribution of plastids as a result of the first pollen mitosis have been investigated using light and electron microscopy. The microspores as well as the generative and the vegetative cell contain mitochondria and other cytoplasmic organelles during all of the observed developmental stages. In contrast, the generative cell and the vegetative cell show a different plastid content. Plastids are randomly distributed within the microspores before pollen mitosis. During the prophase of the first pollen mitosis the plastids become clustered at the proximal pole of the microspore. The dividing nucleus of the microspore is located at the distal pole of the microspore. Therefore, the plastids are not equally distributed into both the generative and the vegetative cell. The possible reasons for the polarization of plastids within the microspore are briefly discussed. The lack of plastids in the generative cell causes a maternal inheritance of plastids inGasteria verrucosa.     

Existance of a Bovine Sperm Antibody Recognizable Antigen-Epitope on the Plasma Surface of Lily Sperm Cells

By using Western blot and rabbit-anti-bovine sperm IgG as the first antibody, a 64 kD protein from sperm cells of Lilium davidii Duch. and the same molecular weight protein from generative cells of L. davidii as well as a 22 kD and a 65 kD protein from sperm cells of Zea mays could be detected. Nevertheless, proteins from filament and anther wall of L. daviclii or etiolated shoot of corn manifested negative reaction. By indirect immunofluorescence assay using the same antibody, the surface of sperm cells from L. daviclii showed positive reaction. Based on the results, the authors believed that a plant sperm cell might have the same epitope (s) as that of an animal sperm cell; the epitope (s) might locate on the surface of a sperm cell and be specific to sperm cells.