Cellular changes during the acquisition of embryogenic potential in isolated pollen grains ofNicotiana tabacum

Summary We used electron microscopical techniques to study ultrastructural changes during the acquisition of embryogenic competence in immature pollen grains ofNicotiana tabacum, isolated at the early- or mid-bicellular stage and cultured in vitro under starvation conditions. Cytoplasmic and nuclear changes during the starvation treatment are reported. Dedifferentiation of plastids, dilation of the wall of the generative cell, the appearance of a large vacuole, loss of nuclear pores in the vegetative nucleus, changes in chromatin and nucleolar structure, and a decrease in the size of the nucleolus were observed. We suggest that these events are the first step in the switch from generative to vegetative generation during pollen embryogenesis.     

ULTRASTRUCTURE OF ANOMALOUS POLLEN DEVELOPMENT IN EMBRYOGENIC ANTHER CULTURES OF HYOSCYAMUS NIGER

The formation of anomalous, binucleate pollen grains and their subsequent embryogenic development, induced by anther culture in Hyoscyamus niger, were analyzed by transmission electron microscopy (TEM). In culture, uninucleate pollen grains occasionally divided symmetrically giving rise to two apparently identical nuclei sharing a common cytoplasm. These nuclei divided once or twice unaccompanied by cell wall formation. After the daughter nuclei organized into cells, their subsequent division products contributed to embryoid formation. In conjunction with previous studies of pollen embryogenesis in H. niger, it appears that in contrast to the principle mode of embryogenesis (i.e., first asymmetric division forms typical two-celled pollen grain and the generative cell acts as the embryogenic precursor), anomalous pollen show no carry-over of gametophytic influences following embryogenic induction. This suggests that specific pathways of embryogenesis are correlated with the rate at which gametophytic gene activity is repressed following induction.     

An autoradiographic study of RNA synthesis during maturation and germination of pollen grains ofHyoscyamus niger

Summary The pattern of RNA synthesis during maturation and germination of pollen grains ofHyoscyamus niger was studied using³H-uridine autoradiography. Incorporation of label during pollen maturation was periodic with peak RNA synthesis occurring in the uninucleate, nonvacuolate pollen grains and in the vegetative cell of the bicellular pollen grains. During the early stages of germination, isotope incorporation occurred predominantly in the nucleus of the vegetative cell with little or no incorporation in the generative cell. With the appearance of the pollen tube, incorporation of³H-uridine in the vegetative cell nucleus decreased and completely disappeared at later stages of germination. No incorporation of isotope was observed in the sperms formed in the pollen tube by the division of the generative cell. From a comparison of the results of this study with those of previous works on RNA synthesis during pollen embryogenesis in cultured anthers ofH. niger, it is concluded that in contrast to embryogenic development, there is no requirement for sustained RNA synthesis by the generative cell nucleus for normal gametophytic development.     

Visualisation of plastid degradation in sperm cells of wheat pollen

Like most angiosperms, wheat (Triticum aestivum) shows maternal inheritance of plastids. It is thought that this takes place by cytoplasmic stripping at fertilisation rather than the absence of plastids in sperm cells. To determine the fate of plastids during sperm cell development, plastid-targeted green fluorescent protein was used to visualise these organelles in nuclear transgenic wheat lines. Fewer than thirty small 1–2-μm plastids were visible in early uninucleate pollen cells. These dramatically increased to several hundred larger (4 μm) plastids during pollen maturation and went through distinct morphological changes. Only small plastids were visible in generative cells (n?=?25) and young sperm cells (n?=?9). In mature sperm cells, these green fluorescent protein (GFP)-tagged plastids were absent. This is consistent with maternal inheritance of plastids resulting from their degradation in mature sperm cells in wheat.     

ORIGIN AND DEVELOPMENT OF POLLEN EMBRYOIDS AND POLLEN CALLUSES IN CULTURED ANTHER SEGMENTS OF HYOSCYAMUS NIGER (HENBANE)

The dedifferentiation of pollen grains of Hyoscyamus niger (henbane) into embryoids and calluses was examined by culturing identical segments of the same anther in a mineral salt-sucrose basal medium and in the basal medium supplemented with 2.0 mg/l 2,4-dichlorophenoxyacetic acid, respectively. Addition of auxin enhanced anther efficiency but did not affect the number of embryogenic pollen grains of an anther segment transformed into calluses. In anther segments cultured in the basal medium, the organogenetic part of the pollen embryoid was formed by the division of the generative cell alone, or by the division of both generative and vegetative cells. More or less similar pathways were followed by pollen grains of anther segments cultured in a medium containing auxin to form calluses. Culture of anther segments in a medium containing a high concentration of auxin (50.0 mg/l) led to a significant reduction in the yield of calluses which were formed almost entirely by the division of both generative and vegetative cells. The bearing of these observations on the role of auxin in determining the pathway of differentiation of embryogenic pollen grains in cultured anther segments is considered. The appearance of embryogenic pollen grains in close proximity to the tapetum as seen in longitudinal sections of cultured anther segments has suggested a role for a gradient of tapetal factors in embryogenic induction.     

Isolation of generative cells from pollen of Phoenix dactylifera

Summary Generative cells in pollen of Phoenix dactylifera had a convoluted surface and a small cytoplasmic volume, and condensed chromatin in the nucleus. Treatment of hydrated pollen with pectinase followed by grinding in a hypotonic medium released the generative cells from pollen. Convolutions of the plasma-membrane surface in vivo were retained by generative cells in vitro. Generative cells had a much lower solute concentration than did vegetative cells, a property that explains why hypotonic shock was effective in releasing intact generative cells from pollen.     

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.     

AN AUTORADIOGRAPHIC STUDY OF RNA SYNTHESIS DURING POLLEN EMBRYOGENESIS IN HYOSCYAMUS NIGER (HENBANE)

RNA synthesis during pollen embryogenesis in cultured anther segments of Hyoscyamus niger (henbane) has been followed by autoradiography of ³H-uridine incorporation. Embryogenic divisions were initiated in binucleate pollen grains in which the generative nucleus or both generative and vegetative nuclei synthesized RNA. When the first haploid mitosis in culture resulted in pollen grains with two nearly identical nuclei, those in which both nuclei synthesized RNA became embryogenic. Binucleate pollen grains in which ³H-uridine incorporation was confined exclusively to the vegetative nucleus gradually became starch-filled and nonembryogenic. Based on the degree of involvement of the vegetative nucleus in embryoid formation, some differences were noted between the counts of autoradiographic silver grains over cells cut off by the generative and vegetative nuclei during progressive embryogenesis. The possible significance of RNA synthesis in the nuclei of binucleate pollen grains in determining the pathway of embryogenic divisions is discussed.     

The developmental fate of angiosperm pollen is associated with a preferential decrease in the level of histone H1 in the vegetative nucleus

In angiosperm pollen, the vegetative cell is assumed to function as a gametophytic cell in pollen germination and growth of the pollen tube. The chromatin in the nucleus of the vegetative cell gradually disperses after microspore mitosis, whereas the chromatin in the nucleus of the other generative cell remains highly condensed during the formation of two sperm nuclei. In order to explain the difference in chromatin condensation between the vegetative and generative nuclei, we analyzed the histone composition of each nucleus in Lilium longiflorum Thunb. and Tulipa gesneriana immunocytochemically, using specific antisera raised against histones H1 and H2B of Lilium. We found that the level of histone H1 decreased gradually only in the vegetative nucleus during the development of pollen within anthers and that the vegetative nucleus in mature pollen after anther dehiscence contained little histone H1. By contrast, the vegetative nucleus contained the same amount or more of histone H2B than the generative nucleus. The preferential decrease in the level of histone H1 occurred in anomalous pollen with one nucleus (uninucleate pollen) or with two similar nuclei (equally divided pollen), which had been induced by treatment with colchicine. The nuclei in the anomalous pollen resembled vegetative nuclei in terms of structure and staining properties. The anomalous pollen was able to germinate and extend a pollen tube. From these results, it is suggested that the preferential decrease in level of histone H1 in pollen nuclei is essential for development of the male gametophytic cell through large-scale expression of genes that include pollen-specific genes, which results in pollen germination and growth of the pollen tube. Received: 9 May 1998 / Accepted: 4 June 1998     

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。     

EMBRYOGENIC DETERMINATION AND RIBONUCLEIC ACID SYNTHESIS IN POLLEN GRAINS OF HYOSCYAMUS NIGER (HENBANE)

³H-uridine administered as a one- or two-hour pulse to embryogenic pollen grains of freshly excised anthers of Hyoscyamus niger (henbane) was autoradiographically localized in embryoids formed during a subsequent chase. Although continuous incubation of anthers in actinomycin D inhibited embryogenesis, a small percentage of potentially embryogenic pollen escaped inhibition if anthers were grown for at least one hour in the basal medium before actinomycin treatment. The results imply that certain pollen grains become embryogenically determined immediately after culture of the anther and that this is accompanied by the synthesis of ribonucleic acid.     

CHANGES IN PLASTID AND MITOCHONDRION CONTENT DURING MATURATION OF GENERATIVE CELLS OF SOLANUM (SOLANACEAE)

A study was made of the number of plastids and mitochondria present in generative cells of Solanum immediately after microspore mitosis, and the fate of these organelles during development of the pollen was determined. Changes were followed via electron microscopy of anthers of S. chacoense and S. tuberosum Group Phureja × S. chacoense. In earliest stages the generative cells were oval and had one surface along the intine and other surfaces in contact with the vegetative cell. As the pollen matured the generative cells elongated, became spindle-shaped, and were completely engulfed in the vegetative cells. At the earliest stages studied, both mitochondria and plastids were present in the generative cell. Plastids of the generative cell were, in contrast to those of the vegetative cells, fewer, smaller, and lacking in starch. Through the maturation stages the content of these organelles in the vegetative cells remained unchanged. While the generative cells retained mitochondria until anthesis, their plastids disappeared completely during maturation. This selective loss during generative cell maturation could lead to transmission of those characteristics encoded in plastid DNA through the pistillate parent only. The mechanism could explain earlier genetic evidence that plastid characters of Solanum were transmitted uniparentally.     

Studies on nuclear degeneration during programmed cell death of synergid and antipodal cells in<Emphasis Type="Italic"> Triticum aestivum</Emphasis>

Morphological changes in the nuclear degeneration of the synergid (mainly the synergid that receives the pollen tube) and antipodal cells in Triticum aestivum were studied. Although located in the same embryo sac, and derived from the same megaspore, nuclear degeneration of the synergid and antipodal cells differs greatly. Nuclear degeneration in the synergid is characterized by pycnosis, i.e., total chromatin condensation, nuclear deformation and distinct shrinkage in volume, followed by the formation of an irregular and densely stained mass—the degenerated nucleus—while the nucleolus disappears prior to the degradation of chromatin. In contrast, in the nuclear degeneration of antipodal cells, chromatin is only partly condensed and the nuclear volume changes only slightly after the distinct chromatin condensation. Chromatolysis then occurs, i.e., stainable contents disappear while the nuclear envelope is retained. The nucleoli persist after the disappearance of the chromatin. The possible functions of nuclear degeneration of synergid and antipodal cells are discussed, especially with respect to the guidance of pollen tube growth and the proliferation of free-nuclear endosperm. The degeneration of synergids and antipodal cells in T. aestivum are distinct forms of programmed cell death, regarded as cytoplasmic cell death and nuclear degradation in advance of cell death, respectively.     

Structural changes during the first divisions of embryos resulting from anther and free microspore culture inBrassica napus

Summary Ultrastructural and cytochemical features of embryo development during anther and free microspore culture inBrassica napus have been followed from the late uninucleate microspore stage through the first embryonic division. On transfer to culture, the microspore cytoplasm possesses a large vacuole, often containing electron opaque aggregates, and a peripheral nucleus. Mitochondria, endoplasmic reticulum and starch-free plastids are distributed throughout the cytoplasm. The conditions of culture induce a number of major changes in the cytoplasmic organisation of the microspore. First, the central vacuole becomes fragmented allowing the nucleus to assume a central position within the cell. Secondly, starch synthesis commences in the plastids which, in turn, are seen to occupy a domain investing the nucleus. Thirdly, the cell develops a thick fibrillar wall, situated immediately adjacent to the intine of the immature pollen wall. Finally, the microspores develop large cytoplasmic aggregates of globular material. The nature of this substance remains unknown, but it remains present until the young embryos have reached the 30 cell stage. The first division of cultured microspores destined to become embryos is generally symmetrical, in contrast to the asymmetric division seen in normal development in vivo. Consideration is given to the differences observed between embryos developing from anthers and free microspores in culture.     

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。     

Ultrastructural and Cytochemical Study on Mature Pollen of Pinus tabulaeformis

The pollen of Pinus tabulaeformis Cart. comprised two prothallial cells, a generative cell and a tube cell which degenerated at pollen maturation. The generative cell had its own cell wall, seperating from the intine of pollen, but with its side wall attached to the infine. Cytoplasmic channels were present on the side of the generative cell wall, which faced to the tube cell cytoplasm. The generative cell differed conspicuously from the tube cell. The main differences include: ( 1 ) The chromatin in the generative cell nucleus was condensed, but was dispersed and had numerous nueleare pores in the tube cell nucleus; (2)There was no microbody in the generative cell but many microbodies were present in the tube cell cytoplasm; (3)More inclusions were present in the tube cell than in the generative cell. Both the generative cell and the tube cells contained lipid bodies and amyloplasts in the cytoplasm, but there were more amyloplasts in the former. The tube cell also contained a few proteins which was absent in the generative cell. In addition, there were numerous mitochondria, polyribosomes, and a few endoplasmic reticulums and dictyosomes in the generative and tube cells. DAPI staining demonstrated numerous cytoplasmic DNA in both generative cell and tube cell. The mode of cytoplasmic inheritance, and the composition, structure and the nature of the pollen wall of P. tabulaefonnis are also discussed in this paper.     

A short severe heat shock is required to induce embryogenesis in late bicellular pollen of Brassica napus L.

 Until now it has been considered that in rape seed (Brassica napus) only late uninucleate microspores and early bicellular pollen are competent for induction of in vitro embryogenesis. Here we describe that pollen isolated at the late bicellular stage can also be induced to undergo embryogenesis. By the application of an additional short and more severe heat stress treatment, DNA synthesis was initiated in both generative and vegetative nuclei, but only vegetative cells were able to complete the cell cycle and to divide further. The ability of late bicellular pollen to respond to embryogenic induction treatment was accompanied by rearrangements of the microtubulular cytoskeleton and by the nuclear localization of 70 kDa heat shock proteins (HSP70). These findings confirm earlier observations that there is a strong correlation between the induction of embryogenesis and the synthesis and nuclear localization of HSP70. Received: 9 January 1997 / Revision accepted: 23 May 1997     

Electron microscopic study of endopolyploid nuclei in rat trophoblast giant cells. IV. Changes in nucleolar ultrastructure during cell differentiation

The ultrastructure of the nucleolus of highly differentiated trophoblast giant cells has been studied on the 17th day of the foetus development. Changes in its morphology have been followed in relation to the degree of nuclear chromatin condensation and to the cell differentiation level. The nucleoli have a reticular structure in the nuclei with dispersed and condensed chromatin. In both the cases the nucleoli involve the four components: fibro-granular, fibrillar (of moderate and normal density) and lacunar regions; fibrillar centres are distinguished within the regions. In the nucleoli with condensed chromatin, unlike those with dispersed chromatin, the perinuclear chromatin is clearly seen, and the penetration of nucleolus-organizer threads along lacunae and deep into the nucleolus can be easily followed. The fibrillar centres are more obvious. With the run of a progressive differentiation of the trophoblast cells, the number of granules is reduced; first, the fibro-granular component covers a significant part of the nucleolus, then granules become visible only in the cortical zone of the nucleolus; in the nuclei with strongly condensed chromatin no granules are seen in the nucleolus.     

Ultrastructural features of Aloe ciliaris pollen

Summary Both the internal anatomy and the external morphology of the mature pollen grain of Aloe ciliaris have been studied, together with the cytological changes occurring during pollen activation. In mature pollen, the generative cell (GC) and the vegetative nucleus (VN) are closely associated with each other, and both can be found in the central part of the grain. In the generative cytoplasm, some organelles and microtubular bundles are present. In the vegetative cell, dictyosomes, stacks of rough endoplasmic reticulum, mitochondria, plastids, vacuoles, ribosomes, and masses of fibrillar material have been described. During pollen activation, important changes occur in both the generative and vegetative cells (VC). In the GC, the microtubular bundles become clearly visible, and the GC and VC gradually move towards the germ pore. The RER cisterns become free from the stacks, and organelles, such as dictyosomes, become very active. The fibrillar masses gradually decrease in number, and the individual fibrils become more evident and clearer in resolution.This research was carried out in the framework of contract no. BAP-0204-I of the Biotechnology Action Programme of the Commission of the European Communities