Behavior of vacuoles during microspore and pollen development in Arabidopsis thaliana

Using the cryo-fixation/freeze-substitution method, we studied the ultrastructural changes and behavior of vacuoles and related organelles (rER and Golgi bodies) during microspore and pollen development, and pollen maturation of Arabidopsis thaliana. In young microspores forming exine (pollen outer cell wall), vacuoles looked like those of somatic cells. In microspores during the formation of intine (inner cell wall), a large vacuole appeared which was made by fusion of pre-existing vacuoles and probably absorption of solutions. In the young pollen grain after the first mitosis, a large vacuole was divided into small vacuoles. The manner of division was not by binary fission and centripetally, but by the invagination of tonoplasts from one side to the opposite side of a vacuole. After the second mitosis, somatic type vacuoles disappeared. In mature pollen grains just before germination, membrane-bound structures containing fine fibrillar substances (MBFs) appeared. The MBFs were considered to be storage vacuoles. In pollen grains from flowers in bloom, MBFs changed to lysosomal structures with acid phosphatases (lytic vacuole). They gradually increased in number and volume, and decomposed the cytoplasm. The autolysis of pollen grains is the first finding in this study, which may contribute to the loss of ability of pollen germination after anthesis.     

Ultrastructural analysis of the sperm cells of mature pollen of maize,Zea mays

Summary Ultrastructural analysis of the mature viable unhydrated pollen of maize,Zea mays from dehiscent anthers shows that the sperm cells are physically distant, each bounded by an envelope comprising their own plasma membrane and the inner plasma membrane of the vegetative cell. The chondriome is unusual in containing one or more filamentous complexes, up to 12m in length appressed to the side of the sperm nucleus. The extensions at each end of the elongate sperm cells contain longitudinally-oriented arrays of endoplasmic lamellae. In a three-dimensional reconstruction of serial thin sections, there is a long J-shaped sperm, c. 35 × 5m and up to 1m in thickness, sited within pointed evaginations of the vegetative nucleus and a second shorter sperm c. 20 × 5m and up to 3.5m in thickness.Abbreviations PA-TCH-SP periodic acid-thiocarbohydrazide-silver proteinate - DAPI 4,6-diamino-2-phenylindole - SC sperm cell - Sn sperm nucleus - Ua-Pb Uranyl acetate-lead citrate staining - ER endoplasmic reticulum     

Differentiation of generative and vegetative cells in angiosperm pollen

 Cellular differentiation of a generative and a vegetative cell is an important event during microspore and pollen development and is requisite for double fertilization in angiosperms. The generative cell produces two sperm cells, or male gametes, whereas the vegetative cell produces an elongated pollen tube, a gametophytic cell, to deliver the male gametes to the embryo sac. For typical differentiation of the gametic and gametophytic cells, cell polarity, including nuclear positioning, must be established prior to microspore mitosis and be maintained during mitosis. Microtubules are closely involved in the process of asymmetric cell division. On the other hand, alteration of the chromatin composition seems to be responsible for the differential gene expression between the generative and vegetative cells. Cytoplasmic regulatory molecules, which affect chromatin configuration, are postulated to be unequally distributed to the two cells at the asymmetric cell division. Thus, typical differentiation of the cells is accomplished by a cellular mechanism and a molecular mechanism, which might be independent of each other. These results are discussed in relation to one model that accounts for the different fates of generative and vegetative cells during sexual plant reproduction. Received: 3 September 1996 / Revision accepted: 23 September 1996     

Consumption of lipid granules and formation of vacuoles in the pollen tube ofTradescantia reflexa

Summary The ultrastructure in pollen tubes ofTradescantia reflexa was studied with special attention to the consumption of lipid granules and the formation of vacuoles. Electron dense, thin vesicles (EDTV) were developed from the small spherical vesicles. ER-associated lipid granules attached to both surfaces of the EDTV. Then, the EDTV became bottle-shaped, surrounding a part of cytoplasm. In the compartment surrounded by the membranes of EDTV, lipid granules were decomposed and finally disappeared. Protuberances were formed at the terminals of the expanded membranes of the EDTV and at the delimiting membranes of the compartment. These protuberances were pinched off from the membranes to form vesicles. These vesicles were transported from the site of origin to destinations in the pollen grain where they fused with each other to form vacuoles.Abbreviation EDTV electron dense, thin vesicle(s)     

In vitro Arabidopsis pollen germination and characterization of the inward potassium currents in Arabidopsis pollen grain protoplasts

The focus of this study is to investigate the regulatory role of K(+) influx in Arabidopsis pollen germination and pollen tube growth. Using agar-containing media, in vitro methods for Arabidopsis pollen germination have been successfully established for the first time. The pollen germination percentage was nearly 75% and the average pollen tube length reached 135 microm after a 6 h incubation. A decrease in external K(+) concentration from 1 mM to 35 microM resulted in 30% inhibition of pollen germination and 40% inhibition of pollen tube growth. An increase in external K(+) concentration from 1 mM to 30 mM stimulated pollen tube growth but inhibited pollen germination. To study how K(+) influx is associated with pollen germination and tube growth, regulation of the inward K(+) channels in the pollen plasma membrane was investigated by conducting patch-clamp whole-cell recording with pollen protoplasts. K(+) currents were first identified in Arabidopsis pollen protoplasts. The inward K(+) currents were insensitive to changes in cytoplasmic Ca(2+) but were inhibited by a high concentration of external Ca(2+). A decrease of external Ca(2+) concentration from 10 mM (control) to 1 mM had no significant effect on the inward K(+) currents, while an increase of external Ca(2+) concentration from 10 mM to 50 mM inhibited the inward K(+) currents by 46%. Changes in external pH significantly affected the magnitude, conductance, voltage-independent maximal conductance, and activation kinetics of the inward K(+) currents. The physiological importance of potassium influx mediated by the inward K(+)-channels during Arabidopsis pollen germination and tube growth is discussed.     

Some permeability properties of angiosperm pollen grains,pollen tubes and generative cells

Summary The permeability of pollen grains, pollen tubes and generative cells of Helleborus foetidus and Galanthus nivalis has been investigated using four probes spanning a wide range of molecular weights: 4,6-diamidino-2-phenyl indole (DAPI; mol.wt. 350). Evans blue (mol.wt. 960), FITC-dextran (average mol.wt. 19400) and FITC-albumin (average mol.wt. 67000). DAPI penetrated into the vegetative cells of desiccated and hydrated pollen, and also entered growing pollen tubes. In contrast, the generative cells of hydrated pollen and of pollen tubes were highly resistant to penetration, as they were when isolated in osmotically balancing medium. Evans blue failed to enter intact generative cells under any of the conditions tested. The dye ultimately entered the vegetative cells of some pollen grains, but these were non-germinable. Growing pollen tubes invariably resisted penetration. Neither of the high molecular weight conjugates entered germinable pollen grains or intact pollen tubes. The results suggest that it is highly unlikely that DNA fragments of high molecular weight can enter viable pollen, pollen tubes or generative cells under any normal conditions.     

Arabinogalactan proteins at the cell surface ofBrassica sperm andLilium sperm and generative cells

Antibodies to arabinogalactan proteins were tested for binding to sperm cells ofBrassica campestris and to generative cells and sperm ofLilium longiflorum. Two monoclonal antibodies, JIM8 and JIM13, bound toBrassica sperm in pollen grains and pollen tubes and to isolated sperm. Sperm pairs retained within the vegetative cell inner plasma membrane fluoresced more brightly than single sperm, indicating that the vegetative cell inner plasma membrane that surrounds sperm pairs also contains arabinogalactan proteins. Isolated sperm pairs exhibited a uniform fluorescence while single sperm had patches of fluorescence. InLilium, isolated generative cells and single sperm cells bound antibodies in a patchy pattern. Antibodies to arabinogalactan proteins may be useful in describing the overall shape of sperm cells and for identifying sperm among other cell types.     

Ultrastructural characterization of core structures and paracrystalline inclusion bodies in L-form cells of streptomycetes

Protoplast type L-form cells of Streptomyces hygroscopicus and S. griseus contain different types of inclusion bodies. Cytoplasmic cores and paracrystalline structures are peculiar inclusions which could not be observed in normal parent bacteria. The cytoplasmic cores are 1-4 micron long and 0.05-0.25 micron broad straight and stiff non-tubular structures consisting of homogeneous mode-rate electron opaque material. Paracrystalline inclusions have side-lengths between 0.2 and 0.5 micron and show a characteristic pattern of 15-20 nm thick straight dark lines and electron lucent intervening spaces of 20-30 nm. Both cytoplasmic cores and paracrystalline inclusions are apparently proteins. Their occurrence in L-form cells indicates an altered synthesis of one or several proteins in these cell types.     

Ultrastructural studies on plastids of generative and vegetative cells in Liliaceae

Summary The behaviour of plastids and mitochondria during the formation and development of the male gametophyte of Chlorophytum comosum has been investigated using electron microscopy. During first pollen mitosis an intracellular polarization of plastids occurs in that the plastids are clustered in the centre of the microspore. The originating generative cell normally lacks plastids. Only in a small number of microspores have plastids been observed near the dividing nucleus of the microspore and later on in the generative cell. These observations agree with the genetic investigations of Collins (1922) on the mode of plastid inheritance which demonstrated a small amount of biparental plastid inheritance in Chlorophytum. The cytological mechanisms underlying plastid polarization during the first pollen mitosis are discussed.     

Microtubule changes during the development of generative cells in Hippeastrum vittatum pollen

Summary The three-dimensional organization of microtubules in generative cells during their development in pollen grains of Hippeastrum vittatum and the dynamic changes that occur were studied by collecting large quantities of fixed and isolated generative cells for immunofluorescence microscopy. The framework configuration and the arrangement pattern of the microtubule organization was investigated. The microtubule framework changed in shape from being spherical at an early stage to being long spindle-shaped at maturity: various transitional forms were observed: ellipsoidal, pear-shaped and short spindle-shaped. The microtubule arrangement making up this framework changed correspondingly from the original network, which was random in distribution, to axially oriented long bundles via an intermediate pattern composed of a mixture of networks with long bundles. However, cells with the same framework configuration might be heterogeneous in microtubule arrangements.     

Identification and characterization of plasma membrane proteins that bind to microtubules in pollen tubes and generative cells of tobacco

The organization and function of microtubules in plant cells are important in many developmental stages. Connections between microtubules and the endomembrane system of plant cells have been discovered by microscopy, but the molecular characteristics of these relationships are mostly unknown except for a few cases. Using two antibodies raised against microtubule-associated proteins (MAPs) from maize, we have identified two polypeptides that share properties of the MAP family in the pollen tube of Nicotiana tabacum. The two polypeptides (with an apparent Mr of 161 and 90 kDa) bind efficiently to animal and plant microtubules and are found in association with the cellular membranes of the pollen tube, from which they can be solubilized with a zwitterionic detergent. One of these proteins has been purified and shown to promote the assembly of tubulin and, to a lesser extent, the bundling of microtubules. Subcellular fractionation indicated that the two proteins are associated with the plasma membrane compartment. The two proteins are found to co-localize in situ with cortical microtubules in the vegetative cytoplasm of tobacco pollen tubes; co-localization is also evident in the generative cell. According to these data, both the 161 and 90 kDa polypeptides are likely to mediate the interactions between the plasma membrane and microtubules in pollen tubes. In addition, functional data indicate that these MAP-like proteins take part in the process of microtubule assembly and reorganization occurring during cell growth. The evidence that both proteins associate with different cellular compartments also suggests a broad-spectrum role in mediating the dynamic relationships between microtubules and plant cell membranes.     

Cytoplasmic vacuoles and bodies of the osteoclast

Summary Cytoplasmic vacuoles and bodies in the osteoclast (rat) were studied by electron microscopy. The vacuole-like structures (0.03–5 in diameter) may be classed as a) vacuoles b) coated vacuoles and c) invaginations. The cytoplasmic bodies vary in size from 0.02–3 in diameter and these may similarly be classed as a) light cytoplasmic bodies, b) dense cytoplasmic bodies, c) coated cytoplasmic bodies and d) cytoplasmic bodies containing inclusions. Both the cytoplasmic vacuoles and the bodies are limited by a triple layered membrane of about 91 Å in thickness. Their relationship to the lysosomal system and the role of this system in the osteoclast is discussed.This research was supported by the Danish Research Council. Grant no. 512–727 and 512–819.     

Isolation of generative cells and their protoplasts from pollen ofLilium longiflorum

Summary Methods are described for the isolation of large quantities of generative cells and their protoplasts from the pollen ofLilium longiflorum. First, large numbers of pollen protoplasts were enzymatically isolated from immature pollen grains. When they were gently disrupted mechanically, the pollen contents including spindle-shaped generative cells were released. The generative cells were separated from other structures by Percoll density gradient centrifugation. They were nearly spherical, but had a callosic cell wall. The isolated generative cells were then re-treated in enzyme solution to yield authentic protoplasts. The generative cell protoplasts, gametoplasts, were uniform in size and contained a condensed haploid nucleus with relatively little cytoplasm.     

Ultrastructural immunolocalization of basic fibroblast growth factor to lipid bodies and secretory granules in human mast cells

Isolated human lung mast cells were used to identify subcellular sites of basic fibroblast growth factor using a postembedding immunogold method. The factor was present in quantity in secretory granules and cytoplasmic lipid bodies. Cisterns of smooth endoplasmic reticulum and ribosome clusters, closely associated with lipid bodies, contained the factor as did the nuclear matrix. Factor-positive lipid bodies were adjacent to nuclear pores and often indented perinuclear cisternae. Altered secretory granules with reduced density, characteristic of secretion by piecemeal degranulation in mast cells, showed reduced gold label for basic fibroblast growth factor; small, electron-lucent (80–100nm) transport vesicles near altered granules were labelled for the factor. Since these mature mast cells do not display extensive arrays of classical secretory organelles, such as rough endoplasmic reticulum and Golgi structures, these new subcellular localizations for basic fibroblast growth factor suggest several possible alternative release routes for a cytokine devoid of a signal sequence characteristic of regulated secretory proteins.     

Root border-like cells of Arabidopsis. Microscopical characterization and role in the interaction with rhizobacteria

Plant roots of many species produce thousands of cells that are released daily into the rhizosphere. These cells are commonly termed border cells because of their major role in constituting a biotic boundary layer between the root surface and the soil. In this study, we investigated the occurrence and ultrastructure of such cells in Arabidopsis (Arabidopsis thaliana) using light and electron microscopy coupled to high-pressure freezing. The secretion of cell wall molecules including pectic polysaccharides and arabinogalactan-proteins (AGPs) was examined also using immunofluorescence microscopy and a set of anticarbohydrate antibodies. We show that root tips of Arabidopsis seedlings released cell layers in an organized pattern that differs from the rather randomly dispersed release observed in other plant species studied to date. Therefore, we termed such cells border-like cells (BLC). Electron microscopical results revealed that BLC are rich in mitochondria, Golgi stacks, and Golgi-derived vesicles, suggesting that these cells are actively engaged in secretion of materials to their cell walls. Immunocytochemical data demonstrated that pectins as well as AGPs are among secreted material as revealed by the high level of expression of AGP-epitopes. In particular, the JIM13-AGP epitope was found exclusively associated with BLC and peripheral cells in the root cap region. In addition, we investigated the function of BLC and root cap cell AGPs in the interaction with rhizobacteria using AGP-disrupting agents and a strain of Rhizobium sp. expressing a green fluorescent protein. Our findings demonstrate that alteration of AGPs significantly inhibits the attachment of the bacteria to the surface of BLC and root tip.     

Microfilaments (F-actin) in generative cells and sperm: an evaluation

Summary Disagreement has arisen over the presence of actin-containing microfilaments (Mfs) in angiosperm generative cells and sperm (GSP). In order to address this issue, we subjected GSP of Tradescantia virginiana, Nicotiana tabacum and Rhododendron laetum to a series of localizations using different antiactins, rhodamine phalloidin and antimyosin. Coordinate staining with antitubulin and Hoechst 33258 defined the status of the microtubule (Mt) cytoskeleton and stages of generative cell division. Additional experiments utilized cytochalasin D (CD). In no instance could Mfs be detected in GSP of the three species. Instead, Mfs seen at the periphery of GSP appear to be continuous with vegetative Mfs and thus are in the vegetative cytoplasm. Mfs are not seen in the constriction zone of dividing T. virginiana generative cells, nor are they indicated in the phragmoplast of N. tabacum and R. laetum. Myosin localizations reveal punctate staining in the vegetative cytoplasm and a thin line of fluorescence around the the outside of the generative cell. While CD seems to delay generative cell division, cytokinesis still takes place. CD-induced Mf fragments are evident in the vegetative cytoplasm but not in GSP. The weight of evidence therefore indicates that GSP do not contain Mfs. The implications of this conclusion for the behavior of GSP and the mechanism of cytokinesis in dividing generative cells are considerable.     

Fine structure of sperm cells in pollen grains ofBeta

Summary The structure of sperm cells in mature trinucleate pollen grains ofBeta vulgaris L. was studied with the electron microscope. The ellipsoidal sperm cell nuclei and cytoplasm are products of mitosis and cytokinesis of the ellipsoidal generative cell. Each sperm cell is separated from the vegetative cytoplasm by two contiguous membranes which enclose its cytoplasm and nucleus. Microtubules present in the sperm cell cytoplasm may be responsible for sperm cell motility.Approved as Journal paper Nr. 846, Utah Agricultural Experiment Station, Logan, Utah.     

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.     

Evidence for polyamine channels in protoplasts and vacuoles of Arabidopsis thaliana cells.

The presence of ion channels permeable to polyamines in the plasma membrane and tonoplast of Arabidopsis thaliana cultured cells was investigated by means of the patch-clamp technique in the whole-cell configuration. Evidence is shown for channels, activated by depolarizations in protoplasts and by hyperpolarizations in vacuoles, with slow time course of activation, permeable to putrescine, spermidine and spermine.     

Structure of pollen grains of Tradescantia reflexa with special reference to the generative cell and the ER around it

A pollen grain in Tradescantia reflexa consists of two cells, the generative and the vegetative cells, the generative cell being surrounded completely by the vegetative cell. The generative cell has many lobes or surface invaginations. A complicated network of rER extends throughout the entire vegetative cytoplasm, forming a system of channels made up by the cisternae of rER. Lipid granules are surrounded by ER. Branches of the rER enter all the concavities of the invaginations and attach to the plasma membranes at the bottoms of the invaginations. In the generative cell, no reserve substances, such as lipids, are seen. There is little ER, mitochondria are few in number, and Golgi bodies seem to be less active within this type of cell. Bundles of microtubules run parallel to the long axis of the generative cell. No microtubules or microfilaments can be detected at or near the bottoms of concavities, either on the generative or the vegetative side. ER is the sole cell element that bears a positional relationship to the invaginations. It appears, therefore, that rER is intimately involved in the shaping of the invaginations. This is the first report that a cell element other than microtubules and microfilaments can be involved in the formation of the outer shape of a cell. The possibility that materials from decomposed lipid droplets are transported through the rER to the generative cell is also discussed.