Isolation of two populations of sperm cells and microelectrophoresis of pairs of sperm cells from pollen tubes of tobacco (Nicotiana tabacum)

Prior research has indicated that the two sperm cells of Nicotiana tabacum are dimorphic, suggesting that they may participate in preferential fertilization during in vivo fusion with the egg and central cells. To probe the mechanism of potential preferential fertilization in this plant, it will be necessary to use modern sensitive molecular techniques. For this purpose, two individual populations of two sperm cells, constituting the Svn (associated with the vegetative nucleus) and Sua (unassociated with the vegetative nucleus), were isolated in the thousands from tobacco pollen tubes with a micromanipulator as a preliminary step toward research on gametic recognition using molecular techniques. Microelectrophoresis of paired sperm cells from a single pollen tube was conducted at different developmental stages. Sperm cells isolated from 1-, 2-, 3- and 4-cm stylar lengths migrated to the negative pole, with the Sua displaying significantly greater electrophoretic mobility than the Svn, reflecting a more positively charged cell surface on the Sua. The sperm cells isolated from 1-cm style are very sensitive to electron potential in an electrophoretic field, presumably reflecting that they are still in a young state. Differences in cell surface charge between the Sua and Svn may be related with cell fate during fertilization. Supported by National Natural Science Foundation of CHINA (30170060)     

Isolation of two populations of sperm cells from the pollen tube of Torenia fournieri

The two sperm cells of Torenia fournieri are dimorphic. The dimorphic character suggests that they might be preferentially involved in fertilization during in vivo fusion with the egg cell and central cell. To probe the mechanism of preferential fertilization, it is necessary to use the most current molecular techniques. For this purpose, populations of >1000 individuals of the two dimorphic sperm cells, Sua (unassociated with the vegetative nucleus) and Svn (associated with the vegetative nucleus) were isolated from pollen tubes that had grown out of the cut ends of the styles. The two sperm cells released from pollen tubes remained attached to one another. When the two attached sperm cells were transferred into a solution containing 0.01% cellulose, 0.01% pectinase, and 5% mannitol, the connection between the two cells disappeared, and they were easily separated using a micromanipulator. The collection of these two individual populations containing over a thousand cells will permit research on gametic recognition at the molecular level.     

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     

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.     

Detection of changes in the nuclear phase and evaluation of male germ units by flow cytometry during in vitro pollen tube growth in <Emphasis Type="Italic">Alstroemeria aurea</Emphasis>

This study aimed to analyze male gamete behavior from mature pollen to pollen tube growth in the bicellular pollen species Alstroemeria aurea. For mature pollen, pollen protoplasts were examined using flow cytometry. The protoplasts showed two peaks of DNA content at 1C and 1.90C. Flow cytometry at different developmental stages of pollen tubes cultured in vitro revealed changes in the nuclear phase at 9 and 18 h after culture. Sperm cell formation occurred at 6–9 h after culture, indicating that the first change was due to the division of the generative cells into sperm cells. After sperm cell formation, the number of vegetative nucleus associations with sperm cells showed a tendency to increase. This association was suggested as the male germ unit (MGU). When sperm cells, vegetative nuclei, and partial MGUs were collected separately from pollen tubes cultured for 18 h and analyzed using a flow cytometer, the sperm cells and vegetative nuclei contained 1C DNA, while the DNA content of partial MGUs was counted as 2C. Therefore, the second change in the nuclear phase, which results in an increase in 2C nuclei, is possibly related to the formation of MGUs.     

Isolation of the male germ unit: organization and function in tobacco (Nicotiana tabacum L.)

Sperm cells are released from pollen tubes of tobacco as linked cells, associated with the vegetative nucleus in an assemblage known as the male germ unit (MGU). Using light microscopy, the MGU assemblage appears to be ensheathed by cytoplasmic material of the pollen tube, which may stabilize their association. Following their release, the shape of the sperm cells and vegetative nucleus changes from an ellipsoidal to a more spheroidal morphology. When most of the cytoplasmic material is dispersed, a boundary remains around the two sperm cells. Using scanning electron microscopy, the cytoplasmic material surrounding the MGU appears filamentous, sometimes twisted and rope-like. Based on these observations, the function of the MGU of tobacco is discussed. Received: 23 February 1998 / Revision received: 21 May 1998 / Accepted: 1 June 1998     

Male Germ Unit and Sperm Heteromorphism: The Current Status

In angiosperms, two sperms have been recognized as cells linked together by themselves and closely associated with the vegetative nucleus in pollen grain or in pollen tube ;o form so called the “male germ unit (MGU)”In addition to MGU, recent studies have shown the existence in several plants that the two sperm cells in pair may be very different in size, shape, organelle content, and sperm heteromorphism. The concept of the MGU and sperm heteromorphism has appeared in more than 40 reports and has triggered new research concerning the angiosperm fertilization process, In this review, a survey and analysis of the MGU and sperm heteromorphism in literature of last decade are presented and the new experimental approaches are suggested.     

Quantitative study of organelle nucleoids during the second pollen grain mitosis inOenothera biennis

Summary The behavior of organelle nucleoids in the generative cell was examined at the second (pollen grain) mitosis by epifluorescence microscopy after staining with 4,6-diamidino-2-phenylindole (DAPI) inOenothera biennis. TheO. biennis generative cell contained a large number of organelle nucleoids distributed randomly in the cytoplasm before mitosis. The epifluorescence images of the nucleoids could be classified distinctly into two groups which corresponded to plastid nucleoids (pt-nucleoids) and mitochondrial nucleoids (mt-nucleoids). Discrimination between pt- and mt-nucleoids was carried out with the aid of DNA immunogold electron microscopy. At metaphase, both pt- and mt-nucleoids migrated to the pole regions of the generative cell. After mitosis, organelle nucleoids in both of the sperm cells scattered in the cytoplasm again. A quantitative examination of pt-nucleoids on 202 pairs of sperm cells showed that the leading sperm cell (Svn) contained 0–39 pt-nucleoids (19.0 ± 7.4) and the trailing sperm cell (Sua) contained 0–40 pt-nucleoids (15.4 ± 6.5). For mt-nucleoids, examination of 28 pairs of sperm cells showed that Svn contained 5–32 mt-nucleoids (14.5 ± 6.8) and Sua contained 6–30 mt-nucleoids (13.4 ±7.5). These results showed that (1) the number of organelle nucleoids per sperm cell varied considerably in the cells studied; (2) quantitative difference in pt- and mt-nucleoids between Svn and Sua could occur in some gametophytes studied; but (3) it was unlikely that there was any pre-differentiational cytoplasm localization and essential sperm heteromorphy with respect to organelle nucleoid content in the gametophyte population.     

烟草精细胞两个群体的分离

高等植物的倾向受精是一个非常吸引人的研究课题,目前对其机理还不清楚。要想探索高等植物倾向受精现象,前提之一是要分离出一定数量的两个精细胞群体作为分子生物学研究方法的材料。以前的研究表明, 烟草(Nicotiana tabacum L.)花粉管中的两个精细胞体积差异明显。这种异型性的精细胞可能与倾向受精有关。烟草是二胞型花粉,生殖细胞只在体内生长的花粉管中才分裂形成两个精细胞。用体内/体外技术培养出花粉管后,爆破花粉管即可释放出花粉管内含物,其中包括两个精细胞。用微量酶液可使两个精细胞分开。然后用显微操作器可挑选出两个大小不同、数量上千的精细胞群体。这种单一纯化的精细胞群体为用分子生物学方法区分两个精细胞的DNA和蛋白质差异打下基础。本研究是高等植物的第二例、二胞花粉植物中的第一例分离两个特定精细胞群体的尝试,为构建烟草两个精细胞的cDNA文库创造了条件。     

The organization of microtubules during generative-cell division inConvallaria majalis

Summary The organization of the microtubule cytoskeleton in the generative cell ofConvallaria majalis has been studied during migration of the cell through the pollen tube and its division into the two sperm cells. Analysis by conventional or confocal laser scanning microscopy after tubulin staining was used to investigate changes of the microtubule cytoskeleton during generative-cell migration and division in the pollen tube. Staining of DNA with 4,6-diamidino-2-phenylindole was used to correlate the rearrangement of microtubules with nuclear division during sperm cell formation. Before pollen germination the generative cell is spindle-shaped, with microtubules organized in bundles and distributed in the cell cortex to form a basketlike structure beneath the generative-cell plasma membrane. During generative-cell migration through the pollen tube, the organization of the microtubule bundles changes following nuclear division. A typical metaphase plate is not usually formed. The generative-cell division is characterized by the extension of microtubules concomitant with a significant cell elongation. After karyokinesis, microtubule bundles reorganize to form a phragmoplast between the two sperm nuclei. The microtubule organization during generative-cell division inConvallaria majalis shows some similarities but also differences to that in other members of the Liliaceae.Abbreviations CLSM confocal laser scanning microscopy - EM electron microscopy - GC generative cell - GN generative nucleus - MT microtubule - SC sperm cell - SN sperm nucleus - VN vegetative nucleus     

烟草精细胞两个群体的分离

高等植物的倾向受精是一个非常吸引人的研究课题,目前对其机理还不清楚.要想探索高等植物倾向受精现象,前提之一是要分离出一定数量的两个精细胞群体作为分子生物学研究方法的材料.以前的研究表明,烟草(Nicotiana tabacum L.)花粉管中的两个精细胞体积差异明显.这种异型性的精细胞可能与倾向受精有关.烟草是二胞型花粉,生殖细胞只在体内生长的花粉管中才分裂形成两个精细胞.用体内/体外技术培养出花粉管后,爆破花粉管即可释放出花粉管内含物,其中包括两个精细胞.用微量酶液可使两个精细胞分开.然后用显微操作器可挑选出两个大小不同、数量上千的精细胞群体.这种单一纯化的精细胞群体为用分子生物学方法区分两个精细胞的DNA和蛋白质差异打下基础.本研究是高等植物的第二例、二胞花粉植物中的第一例分离两个特定精细胞群体的尝试,为构建烟草两个精细胞的cDNA文库创造了条件.     

Sperm cells in pollen tubes ofNicotians tabacum L.: three-dimensional reconstruction,cytoplasmic diminution,and quantitative cytology

Summary The organization of the sperm cells and vegetative nucleus (male germ unit) ofNicotiana tabacum was examined 18 h after semivivo pollination using transmission electron microscopy, computerassisted serial section reconstruction and quantitative cytology. Based on a measurement of 11 cellular parameters in nine reconstructed sperm cell pairs, there are no statistically significant differences between the two cells. The S_vn is characterized by a strapshaped cytoplasmic extension that is physically associated with the surface of the vegetative nucleus. The nucleus is located adjacent to the sperm crosswall, with sperm organelles being distributed between the nucleus and the extension. The S_ua is a tapered cell with cytoplasmic areas at both poles and deep axial invaginations near the crosswall. This cell has a centrally-located nucleus and a largely polar distribution of organelles. Three mechanisms for cytoplasmic diminution were observed that appear to contribute actively to the loss of cytoplasmic volume and organelles: (1) enucleated cytoplasmic body production in the S_ua; (2) vesiculation at the tip of the cytoplasmic projection of the S_vn; and (3) vesicle-containing body accumulation in the periplasm of both the S_vn and S_ua.Abbreviations 3-D three-dimensional - ECB enucleated cytoplasmic body - MGU male germ unit - S_vn leading sperm cell - S_ua trailing sperm cell - TEM transmission electron microscopy - VCB vesicle-containing body     

蓝猪耳精细胞的分离及两个精细胞群体的收集

蓝猪耳是二细胞型花粉,生殖细胞在花粉管中分裂形成两个精细胞。用体内-体外技术培养出花粉管后,将其置于爆破液中即可释放出花粉管内含物,其中包括两个精细胞和营养细胞。在显微镜下两个精细胞具二型性：体积较大的精细胞与花粉管的营养核相连,体积较小的精细胞只与大精细胞连接。两个精细胞之间的连接比较结实,需用微量酶液将两个精细胞分开。用显微操作仪就可分别挑选出两个精细胞群体,分别有上百个细胞。蓝猪耳精细胞的成功分离为利用蓝猪耳开展离体受精研究打下了良好的基础。这种单一纯化的精细胞群体的获得为用分子生物学方法区分两个精细胞的特异基因和蛋白质创造了条件。     

Characterization of SP1, a stress-responsive,boiling-soluble,homo-oligomeric protein from aspen

In flowering plants, the vegetative nucleus and the two sperm cells are proposed to form a functional assemblage, the male germ unit (MGU). Here, we describe the developmental pathway of MGU assembly in Arabidopsis and report two classes of mutations that affect the integrity and/or the positioning of the MGU in the mature pollen grain. In germ unit malformed (gum) mutants, the vegetative nucleus is positioned adjacent to the pollen grain wall, separate from the two sperm cells, whereas in MGU displaced (mud) mutants, the intact MGU is displaced to the pollen grain wall. mud and gum mutants correspond to male-specific gametophytic mutations that also reduce pollen fitness. Genetic mapping showed that the gum1 and gum2 mutations are genetically linked, possibly allelic, whereas the mud1 and mud2 mutations correspond to two unlinked loci mapping on different chromosomes. The hierarchical relationship between mud and gum mutations was investigated by phenotypic analysis of double mutants. gum1 appeared to act earlier than mud1 and mud2, affecting initial MGU assembly and its stability during pollen maturation. In contrast, mud1 and mud2 mutations appear to act only on MGU positioning during final maturation. From in planta analyses of pollen germination in mud and gum mutants, we conclude that the initial proximity and positioning of MGU components is not required for their entrance into the pollen tube, but the efficiency of MGU translocation is reduced.     

Ultrastructure of vegetative organization and cell division in the freshwater red algaCompsopogon

Summary Uniseriate filaments of the freshwater red algaCompsopogon coeruleus were examined by transmission electron microscopy for details of vegetative organization and cell division with the goal of providing useful taxonomic characters. Each cell's single, complex chloroplast contains a peripheral encircling thylakoid, and unlike the vast majority of red algae, the cis-regions of dictyosomes are not consistently juxtaposed with mitochondria. These subcellular features, which are present in all examined genera in theCompsopogonales, Erythropeltidales, andRhodochaetales, along with certain unique reproductive characteristics, unify these three orders. During mitosis in uncorticated axial cells, a small, ring-shaped nucleus associated organelle (NAO) is located at each division pole, an intranuclear spindle comes to a moderately acute focus at the flattened, fenestrated metaphase-anaphase division poles and perinuclear ER partially encloses dividing nuclei, including a well-developed interzonal midpiece. The cleavage furrow penetrates the large, central vacuolar region to separate daughter nuclei. These cell division features most closely resemble the pattern described for the orderCeramiales. Our observations of vegetative and dividing cells ofC. coeruleus supplement the growing volume of evidence in favour of uniting all red algae into a single class without subclass designations.Abbreviations ER endoplasmic reticulum - IZM interzonal midpiece - MT microtubule - MTOC microtubule organizing center - NAO nucleus associated organelle - NE nuclear envelope - PER perinuclear endoplasmic reticulum     

Occurrence of Mitochondria in the Nuclei of Tobacco Sperm Cells

Tobacco sperm cells contain intact mitochondria within their nuclei with a frequency of 0.35 [plusmn] 0.13 per cell. These inclusions appear to originate from mitochondria found among chromatids in the highly elongated metaphase plate of the dividing generative cell. These organelles are apparently captured during the reconstitution of the nuclear envelope. Only sperm cells were observed to contain these nuclear mitochondria; generative cells, vegetative pollen cells, transmitting tissue cells, unfertilized egg cells, and central cells lacked them. Nuclear mitochondria were also seen in the nuclei of the egg and central cell after fusion with sperm nuclei, suggesting that nuclear mitochondria are transmitted into the zygote and primary endosperm cells during double fertilization. Organellar inclusions in the sperm nucleus provide a potential mechanism for transmitting organellar DNA into the next generation and could potentially facilitate the transfer of genetic material between the nucleus and other organelles.     

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.     

Light and electron microscopical observations on sperm cells of Guizotia abyssinica (Asteraceae)

The sperm cells of Guizotia abyssinica were studied during pollen development by light microscopy and at anther dehiscence by transmission electron microscopy. During development, the nuclei change shape from spherical to elongate, thread-like and banded. They are straight or folded, and rarely spiral-shaped when present in the pollen tube. Electron microscopy disclosed that the elongated sperm nuclei are apparently lobate. Intermittently, they are constricted and attenuated or convoluted. The major part of the sperm chromatin is condensed and peripheral, while a minor part is dispersed and central. The scanty sperm cytoplasm contains mitochondria and starch granules. The cytoplasm is mainly restricted to spaces adjoining constricted, lobed and convoluting nuclear sites. Some cytoplasmic patches become embayed in the nucleus at these sites. The periplasm bordering the sperm cells may originate from lucid dilations of the lumen between the plasma membranes of the sperm and vegetative cells. The periplasm is sometimes partially or entirely surrounded by double-membraned endoplasmic reticulum. Folded sperm cells with less coherent periplasm possibly represent a late stage preceding discharge into the pollen tube. The sperm cells always precede the vegetative nucleus into the pollen tube.     

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。     

The role of microtubules in establishing nuclear spatial patterns in multinucleate green algae

Summary In uninucleate cells, cytokinesis follows karyokinesis, thereby reestablishing a specific nucleus-to-cytoplasm ratio. In multinucleate cells, cytokinesis is absent or infrequent; no plasmalemma boundary defines the cytoplasmic territory of an individual nucleus. Several genera of large multinucleate green algae were examined with epifluorescence light microscopy to determine whether the patterns of cytoplasmic organization establish nuclear cytoplasmic domains. Randomly spaced nuclei, singular mitotic events and cytoplasmic streaming characterize the organization of two genera,Derbesia andBryopsis (Caulerpales). The cells ofValonia, Valoniopsis, Boergesenia, Ventricaria (Siphonocladales), andHydrodictyon (Chlorococcales) display regularly spaced nuclei which undergo synchronous divisions in a stationary cytoplasm. In the cytoplasm of genera with regularly spaced nuclei, microtubules radiate from all nuclei in late telophase-early interphase. These internuclear microtubule arrays are not found in algal genera with randomly spaced nuclei. It is hypothesized that these microtubule arrays play a role in establishing the cytoplasmic domain of each nucleus in genera with regularly spaced nuclei. Loss of microtubule arrays during the events of mitosis correlated positively with the increasing randomization of nuclear patterns in algae grown in microtubule inhibitors. Cytoplasmic domains were maintained when cells were grown in the same media in the dark. This suggests that, after a round of division, regular nuclear spacing in certain multinucleate algae is reestablished by internuclear microtubule arrays, which are not, however, required to maintain spacing during interphase.Dedicated to the memory of Professor Oswald Kiermayer