Origin of sperm cell association in the “male germ unit” ofBrassica pollen

The association of the two sperm cells inBrassica napus pollen following the generative cell division was investigated. The generative cell during division is located in the center of the pollen grain, within the vegetative cell. The space present between the two cells is slightly irregular as seen following standard glutaraldehyde fixation. After completion of mitosis vesicles appear in the equatorial plane, coalescing centripetally to form a cell plate which fuses with the membrane of the generative cell, dividing it in two sperm cells. They are isolated from the vegetative cell by the space between the two cell membranes and are separated from each other by a similar space resulting from the cell plate formed during cytokinesis.     

Ultrastructure of sperm cells and the male germ unit in pollen tubes ofNicotiana tabacum

Summary The structure of sperm cells and their association with the vegetative nucleus in pollen tubes ofNicotiana tabacum grown in styles were observed with the electron microscope, demonstrating the existence of a male germ unit. The two sperm cells are arranged in tandem and are closely associated with the vegetative nucleus, which always takes the lead. The leading sperm cell (SC 1) has a long and narrow cytoplasmic projection which lies within the enclaves of the much lobed vegetative nucleus, thus forming a physical association. The trailing sperm cell (SC 2) and the SC 1 are not only joined by a common transverse cell wall but also are surrounded by a periplasm bounded by the plasma membrane of the sperm cells and that of the vegetative cell, thus forming a structural connection. The sperm cells are elongated, with cytoplasmic projections at the anterior end of the SC 1 and at both ends of the SC 2. The cytoplasm of both sperm cells includes mitochondria, endoplasmic reticulum, dictyosomes, ribosomes, small vacuoles and axially oriented microtubules. No plastids were observed.Abbreviations DAPI 4,6-diamino-2-phenylindole - MGU male germ unit - MT microtubule - SC 1 the leading sperm cell physically associated with the vegetative nucleus - SC 2 the trailing sperm cell     

The spatial association of the sperm cells and vegetative nucleus in the pollen grain ofBrassica

Summary In mature viable pollen ofBrassica oleracea, the pair of sperm cells and the nucleus of the vegetative cell are linked to form a structured unit we term the male germ unit. The sperm cells are held within a common periplasm and have no cell walls. Each sperm cell has a central globular body containing the nucleus surrounded by several evaginations which provide the means for linkage between them. One sperm cell, usually that closest to the nucleus of the vegetative cell contains most of mitochondria profiles (plastids are absent). This sperm cell appears to be linked by its protoplasmic evaginations to the envelope of the vegetative nucleus. The role of this unit in interactions with the female gametic complex is considered.     

Computer-assisted reconstruction of the male germ unit in pollen ofBrassica campestris

Summary In mature tricellular pollen of rapeseed,Brassica campestris L., the pair of sperm cells are held together within the common plasma membrane of the vegetative cell and are closely associated with the vegetative nucleus. Serial thin sections were cut of entire sperm cell associations of 7 pollen grains, and 3-dimensional coordinated information obtained by digitization. Precise lengths and placement of the sperm cells and vegetative nucleus in three dimensions were computed and stereoscopic images generated and confirmed by two manually constructed 3-dimensional models. The sperm cell most closely associated with the vegetative nucleus, possessed a long tail, > 10 m in length, that penetrated through a passage in the highly convoluted nucleus. This long tail contained a forked array of microtubules in all 7 grains examined. Arrays of microtubules occurred in the second sperm cell, aligned within plasma-membrane evaginations or ridges.     

The male germ unit in the pollen and pollen tubes ofPetunia hybrida: Ultrastructural,quantitative and three-dimensional features

Summary The male germ unit ofPetunia hybrida was examined quantitatively and qualitatively at the ultrastructutral level. Three-dimensional reconstructions, the determination of nuclear and cytoplasmic volumes and surface areas, and organelle counts were obtained from serial ultrathin sections and computer analysis. In the mature pollen grain, an elongated generative cell is found in direct physical association with and partially surrounded by the vegetative nucleus. The mature generative cell lacks plastids and has mitochondria equally distributed at both of its tapering ends. In the pollen tube, the sperm cells are physically associated by cytoplasmic connections to each other and to the surrounding vegetative cell membrane. At full style length, the lobed vegetative nucleus and sperm pair are found in close association near the end of the pollen tube. The two sperms of a pair are not strongly dimorphic.     

Male reproductive cell development in Nicotiana tabacum: male germ unit associations and quantitative cytology during sperm maturation

Generative and sperm cells were examined at four stages of development from generative cell formation to sperm cell maturation using serial transmission electron microscopy. The generative cell and vegetative nucleus are associated in a male germ unit association during pollen maturation and tube elongation, except for generative cell mitosis. At late stages of prophase, this association loosens; the generative cell separates from the vegetative nucleus at metaphase. Slender, unbranched, or occasionally branched projections may be found at one or both ends of the generative cell, or they may be single, blunt, and short. Slender projections are rare during anaphase and telophase. The vegetative nucleus moves back into apposition with one sperm cell at the end of mitosis. During the re-establishment of the association, the vegetative nucleus first touches the end of the leading sperm cell and then moves next to the middle of the sperm nucleus. As the sperm cells enter interphase, a conventional association is re-established between one cell and the vegetative nucleus through one or more long and slender cytoplasmic extensions; these associations are maintained throughout later passage in the pollen tube. During maturation, a significant increase occurs in the surface area of the sperm cells (particularly in the sperm cell in association with the vegetative nucleus), and a lesser increase in nuclear volume and surface area. Other sperm cell parameters, including those of heritable organelles, remain unchanged during sperm cell maturation.     

Relationship between the generative cell and vegetative nucleus in pollen tubes of Nicotiana tabacum

Summary Fluorescence microscopy was used to visualize microtubules (Mts) and chromatin in an effort to further clarify the relationship between the generative cell (GC) and vegetative nucleus (VN) in pollen tubes of tobacco. Prominent Mt bundles are present in one or more GC extensions that can be finger-like or lamellar in form. While the VN is positioned distal to the GC in most cases, it can also straddle the cell or lie proximal to it. In all cases, however, extensions embrace, penetrate or clasp the VN. GC Mts are reorganized during the formation of the mitotic apparatus, and cell extensions are fully or partially withdrawn. By telophase in many pollen tubes, the VN shifts to a more proximal position and appears to adhere to the region of the GC containing the phragmoplast. Application of oryzalin leads to the disorganization of Mts, changes in cell shape, including the loss or alteration of cell extensions, and separation of the GC and VN in some cases. However, the position and polarity of the VN is maintained in most pollen tubes. The results indicate that GC Mts and cell extensions play a role in the association with the VN. However, the relationship appears to be controlled by other factors as well. Attention should now be directed at potential interactions involving the VN envelope, vegetative plasma membrane, GC plasma membrane and extracellular matrix.Abbreviations GC Generative cell - MGU male germ unit - Mt microtubule - VN vegetative nucleus     

Preliminary observations on the formation of the male germ unit in pollen tubes ofCyphomandra betacea sendt.

Summary The structure of the generative cell and its association with the vegetative nucleus in the pollen tube ofCyphomandra betacea Sendt. were observed with the electron microscope. The generative cell, bounded by its own plasma membrane and the inner plasma membrane of the vegetative cell, possesses the cytoplasmic extension which lies within the embayments of a vegetative nucleus. The generative cell contains the normal complement of organelles and, especially, microtubules which cluster into several groups adjacent to the plasma membrane, oriented along the longitudinal axis of the cell. In the pollen tube reaching the lower end of the style aftersemivivo pollination, both of the sperm cells are elongated and polyribosomes and microtubules are the outstanding feature in the cytoplasm. The two sperm cells are connected by a common transverse cell wall, while cytoplasmic channels exist in both the periplasm of the two sperm cells and the transverse wall. The leading sperm cell (S_vn) is closely associated with the vegetative nucleus. Thus the present study demonstrates the existence of the male germ unit in the pollen tube ofC. betacea. The possible cytoplasmic continuity between the sperm cells and between the gametes and vegetative cell is considered.Abbreviations S_vn sperm cell physically associated with the vegetative nucleus - S_ua sperm cell unassociated with the vegetative nucleus - RER rough endoplasmic reticulum - SER smooth endoplasmic reticulum     

Role of microtubules in the movement of the vegetative nucleus and generative cell in tobacco pollen tubes

The germination and growth of pollen grains of Nicotiana tabacum and N. alata with the anti-microtubule drug oryzalin retarded significantly the movement of the vegetative nucleus (VN) and the generative cell (GC) from the grain to the tube apex but had no effect on pollen tube elongation. In N. tabacum, only 11% and 48% of the pollen tubes treated with oryzalin for 6 h and 12 h, respectively, had the VN and GC in the tube mainly in its middle part. In corresponding control materials, 79% and 99% of pollen tubes contained the VN and GC close to the apex. Indirect immunofluorescence microscopy and related studies of the tubes grown in the presence of oryzalin revealed complete absence of microtubules (MTs) but apparently intact microfilaments (MFs). These results suggested that the movement of VN and GC from the grain into the tube is possible when no MTs but only MFs are present, but the movement is then slow. In control tubes, the parallel orientation of MT bundles and extensions of VN were interpreted to represent the structural organization needed for the MT-dependent movement of VN.     

The fusion of sperm cells and the function of male germ unit (MGU) of tobacco (Nicotiana tabacum L.)

 Sperm cells released from in vivo-in vitro grown pollen tubes of tobacco are associated in pairs and initially enclosed by the plasma membrane of the pollen tube. When the sperm cells are placed together, using glass microinjector needles, in an enzymatic solution, up to half undergo cellular fusion with subsequent nuclear fusion. The frequency of sperm cell fusion decreases with time during the elongation of the pollen tube, suggesting that mechanisms inhibiting self-fusion of sperm cells may develop as the pollen tube elongates through the style toward the ovule. This tendency may play an important role in inhibiting fusion of the two sperm cells inside the calcium-rich synergid where the male germ unit dissociates and sperm cells are transported to their target cells - the egg and central cell. Received: 25 August 1997 / Revision accepted 16 March 1998     

Juxtaposition of the generative cell and vegetative nucleus in the mature pollen grain of amaryllis (Hippeastrum vitatum)

Summary Computer-generated, three-dimensional reconstructions from serial ultrathin sections were used to investigate the spatial organization and extent of association between the generative cell and vegetative nucleus within the mature pollen grain of amaryllis. In all cases examined, the highly lobed vegetative nucleus was found in close proximity and positioned laterally to the elongated, oval shaped generative cell. Numerous projections of the vegetative nucleus come to within 53 nm of the inner vegetative cell plasma membrane which surrounds the generative cell. These areas of close association may continue transversely around the generative cell for a distance of up to 4 m. Although an association exists between the generative cell and vegetative nucleus of the mature pollen grain, it is apparent that several changes must take place after pollination in order to achieve the high amount of close contact that occurs between the vegetative nucleus and the numerous terminal cell extensions of the leading sperm in the pollen tube of amaryllis (Mogensen 1986). Thus, this study demonstrates that the spatial organization among components of the male germ unit in the mature pollen grain does not necessarily reflect relationships that ultimately exist among these components within the pollen tube.     

Ultrastructure of the vegetative cell ofBrassica napus pollen with particular reference to microbodies

Summary The ultrastructure of the vegetative cell ofBrassica napus tricellular pollen grains, just before anthesis with standard chemical fixation, is reported. The vegetative cell may be regarded as a highly differentiated and metabolically active fat-storage cell. It contains many mitochondria with a well developed internal membrane system, starchless plastids, microbodies, lipid bodies, dictyosomes and numerous vesicles thought to originate from the dictysomes. Rough endoplasmic reticulum organized in stacks of cisternae is also spatially associated with certain organelles, mainly lipid bodies, microbodies and plastids. There are also randomly distributed polyribosome areas. The microbodies are mainly polymorphic in shape and are often observed in contact with lipid bodies. The above spatial relationship implies that the microbodies may have a glyoxysomal function. In the late period of vegetative cell maturation, the microbodies are probably involved in the process of glyconeogenesis in which the conversion of lipid reserves to sugar takes place.Abbreviations VC vegetative cell - VN vegetative nucleus - SC sperm cell - M mitochondria - MB microbodies - L lipid body - P plastid - D dictyosomes     

Sexual development of mouse germ cells: Nanos2 promotes the male germ cell fate by suppressing the female pathway

Much research has been conducted in recent years to elucidate the mechanisms underlying the crucial developmental process of sex determination. It has now been shown that somatic sex is principally determined by the chromosomal sex and the molecular mechanisms involved in this process have become relatively well understood in both human and mouse. However, the pathways involved in the sex determination of the germ cells remain largely unknown except for the fact that the somatic cues surrounding these cells play a significant role. Moreover, which sexual pathway of the germ cells is induced or suppressed has long been a subject of some dispute. Recent findings indicate that the key molecule that influences this choice is retinoic acid. In addition, the Nanos protein has been shown to play a critical role in promoting male germ cell differentiation. In this review, the possible mechanisms underlying these events, which have been brought to light by recent findings, are summarized to provide a better and more precise understanding of our current knowledge of the sex determination and subsequent differentiation of germ cells.     

Distinct localization of histone H3 methylation in the vegetative nucleus of lily pollen

We analysed the distribution of histone H3 modifications in the nucleus of the vegetative cell (the vegetative nucleus) during pollen development in lily (Lilium longiflorum). Among the modifications specifically and/or abundantly present in the vegetative nucleus, dimethylation of histone H3 at lysine 9 (H3K9me2) and lysine 27 (H3K27me2) were found in heterochromatin, whereas trimethylation of histone H3 at lysine 27 (H3K27me3) was localized in euchromatin in the vegetative nucleus. Such unique localization of the histone H3 methylation marks, particularly of H3K27me3, within a nucleus was not observed in lily nuclei other than the vegetative nucleus. The level of H3K27me3 increased in the euchromatic region of the vegetative nucleus during pollen maturation. The results suggest that H3K27me3 controls the gene expression of the vegetative cell during pollen maturation.     

Infertility in male transgenic mice: disruption of sperm development by HSV-tk expression in postmeiotic germ cells

Previous experiments revealed that male transgenic mice bearing a cosmid that included the Class II E alpha gene, about 35 kb of 5' flanking DNA, and the cosmid vector sequences were sterile. To ascertain the cause of the sterility, various subfragments of the cosmid were tested in transgenic mice. Only those pieces of DNA that included some of the E alpha flanking chromosomal DNA and the herpes simplex virus (HSV)-thymidine kinase (tk) gene that was in the vector resulted in male sterility. Histological analysis revealed abnormalities in nuclear morphology of elongating spermatids and retention of mature spermatids within the seminiferous epithelium. Immunocytochemical studies showed that the HSV-tk gene was expressed at low levels in postmeiotic round spermatids and at higher levels in more mature elongating spermatids. To determine whether expression of HSV-tk in spermatids might be responsible for the sterility, the protamine gene promoter was used to direct the expression of HSV-tk to postmeiotic germ cells. Since the mice so treated were also sterile, the data suggest that expression of this enzyme in spermatids is responsible for the sterility phenotype.     

Functional role of GKAP1 in the regulation of male germ cell spontaneous apoptosis and sperm number

G kinase‐anchoring protein 1 (GKAP1) is a G kinase‐associated protein that is conserved in many eutherians and is mainly expressed in the testis, especially in spermatocytes and round spermatids. The function of GKAP1 in the testis is largely unknown. Here, we revealed that deletion of GKAP1 led to an increase in sperm production with swollen epididymis, and germ cell apoptosis was found to decrease in GKAP1 knock‐out mice. Further investigations showed that a deficiency of GKAP1 could partly change the cellular location of cGK‐Iα and increase the amount of active cAMP response element‐binding protein (CREB) in the nucleus. Therefore, the expression of a particular inhibitor of apoptosis proteins (IAPs) was upregulated because of the activation of CREB, and this increase in IAPs was associated with a decrease in the level of activated caspase‐3. These results suggest that a deficiency of GKAP1 in mouse testis could increase sperm production through a reduction of the spontaneous apoptosis of germ cells in the testis, possibly because of a change in the activity of the cGK‐Iα pathway.     

Establishment of the male germline and sperm cell movement during pollen germination and tube growth in maize

Two sperm cells are required to achieve double fertilization in flowering plants (angiosperms). In contrast to animals and lower plants such as mosses and ferns, sperm cells of flowering plants (angiosperms) are immobile and are transported to the female gametes (egg and central cell) via the pollen tube. The two sperm cells arise from the generative pollen cell either within the pollen grain or after germination inside the pollen tube. While pollen tube growth and sperm behavior has been intensively investigated in model plant species such as tobacco and lily, little is know about sperm dynamics and behavior during pollen germination, tube growth and sperm release in grasses. In the March issue of Journal of Experimental Botany, we have reported about the sporophytic and gametophytic control of pollen tube germination, growth and guidance in maize.1 Five progamic phases were distinguished involving various prezygotic crossing barriers before sperm cell delivery inside the female gametophyte takes place. Using live cell imaging and a generative cell-specific promoter driving α-tubulin-YFP expression in the male germline, we report here the formation of the male germline inside the pollen grain and the sperm behaviour during pollen germination and their movement dynamics during tube growth in maize.Key words: male gametophyte, generative cell, sperm, pollen tube, tubulin, fertilization, maize     

Migration of sperm cells during pollen tube elongation in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>: behavior during transport,maturation and upon dissociation of male germ unit associations

The promoter sequence of sperm-expressed gene, PzIPT isolated from the S_vn (sperm associated with the vegetative nucleus) of Plumbago zeylanica, was fused to a green fluorescent protein (GFP) reporter sequence and transformed into Arabidopsis thaliana to better visualize the live behavior of angiosperm sperm cells. Angiosperm sperm cells are not independently motile, migrating in a unique cell-within-a-cell configuration within the pollen tube. Sperm cells occur in association with the vegetative nucleus forming a male germ unit (MGU). In Arabidopsis, GFP was expressed equally in both sperm cells and was observed using a spinning disk confocal microscope, which allowed long duration observation of cells without bleaching or visible laser radiation damage. Pollen activation is reflected by conspicuous movement of sperm and pollen cytoplasm. Upon pollen germination, sperm cells enter the forming tube and become oriented, typically with a sperm cytoplasmic projection leading the sperm cells in the MGU, which remains intact throughout normal pollen tube elongation. Maturational changes, including vacuolization, general rounding and entry into G2, were observed during in vitro culture. When MGUs were experimentally disrupted by mild temperature elevation, sperm cells no longer tracked the growth of the tube and separated from the MGU, providing critical direct evidence that the MGU is a functional unit required for sperm transmission.     

Male cytoplasmic diminution and male germ unit in young and mature pollen of Cymbidium goeringii: a 3-dimensional and quantitative study

Summary Pollinia of Cymbidium goeringii (Orchidaceae) were examined at a young stage (approx. 2 weeks before anthesis) and at anthesis using transmission electron microscopy, computer-assisted serial reconstruction and quantitative cytology. At the young stage, the generative cell (GC) has a spherically shaped main body with a large nucleus and 1 to 4 cytoplasmic extensions (up to 10 m long) physically associated with a groove on one side of the vegetative nucleus (VN). By anthesis, some GCs lose their cytoplasmic extensions, becoming spherical. The GC surface becomes highly wrinkled, the distance between the GC and the VN increases and the two may separate completely. Enucleated cytoplasmic bodies (ECBs) are apparently generated by the GC, as evidenced by their similar ultrastructural appearance and distribution near the GC. ECBs are likely produced from two sites: the GC surface and the tips of cytoplasmic extensions of the GC. Vesicle-containing bodies (VCBs) may be generated from the lateral surface of the GC and may also represent a degeneration stage of ECBs, finally fusing with lipid bodies. Heritable organelles are rare and usually absent in the GC of Cymbidium: 0.176 mitochondria and 0.0042 plastids per GC were observed at the young stage and no mitochondria and 0.019 plastids at anthesis. Of 16 cellular parameters examined during GC development, all decreased with the exception of the surface area and volume of ECBs/ VCBs (which remained stable) and GC vacuoles (which increased). Significant decreases in 11 parameters presumably relate to dehydration of the pollen and male cytoplasmic diminution.Abbreviations 3-D three-dimensional - ECB enucleated cytoplasmic body - GC generative cell - MGU male germ unit - RER rough endoplasmic reticulum - VCB vesicle-containing body - VN vegetative nucleus