Immunoelectron microscopy of myosin associated with the generative cells in pollen tubes ofNicotiana tabacum L.

In this study, polyclonal anti-myosin antibodies were used for immunogold labeling of ultrathin sections of pollen tubes ofNicotiana tabacum L. to unravel the ultrastructural localization of myosin associated with the generative cells. Clusters of immunogold particles were consistently found in association with the area of the outer surface of the vegetative cell plasma membrane present around the generative cell. Compared to the generative cell cytoplasm, the nucleoplasm showed higher numbers of gold particles. This is the first direct evidence demonstrating the presence of myosin in the nuclei of the generative cell of flowering plants. The possible implications of these findings are discussed in relation to movement of the generative cell in the pollen tube cytoplasm.     

A novel callose synthase from pollen tubes of Nicotiana

Pollen-tube cell walls are unusual in that they are composed almost entirely of callose, a (1,3)--linked glucan with a few 6-linked branches. Regulation of callose synthesis in pollen tubes is under developmental control, and this contrasts with the deposition of callose in the walls of somatic plant cells which generally occurs only in response to wounding or stress. The callose synthase (uridine-diphosphate glucose: 1,3--d-glucan 3--d-glucosyl transferase, EC 2.4.1.34) activities of membrane preparations from cultured pollen tubes and suspension-cultured cells of Nicotiana alata Link et Otto (ornamental tobacco) exhibited different kinetic and regulatory properties. Callose synthesis by membrane preparations from pollen tubes was not stimulated by Ca²⁺ or other divalent cations, and exhibited Michaelis-Menten kinetics only between 0.25 mM and 6 mM uridine-diphosphate glucose (K _m 1.5–2.5 mM); it was activated by -glucosides and compatible detergents. In contrast, callose synthesis by membrane preparations from suspension-cultured cells was dependent on Ca²⁺, and in the presence of 2 mM Ca²⁺ exhibited Michaelis-Menten kinetics above 0.1 mM uridine-diphosphate glucose (K _m 0.45 mM); it also required a -glucoside and low levels of compatible detergent for full activity, but was rapidly inactivated at higher levels of detergent. Callose synthase activity in pollen-tube membranes increased ten fold after treatment of the membranes with trypsin in the presence of detergent, with no changes in cofactor requirements. No increase in callose synthase activity, however, was observed when membranes from suspension-cultured cells were treated with trypsin. The insoluble polymeric product of the pollen-tube enzyme was characterised as a linear (1,3)--d-glucan with no 6-linked glucosyl branches, and the same product was synthesised irrespective of the assay conditions employed.Abbreviations Ara l-arabinose - CHAPS 3-[(3-cholamidopropyl)dimethylammonia]-1-propane sulphonic acid - DAP diphenylamine-aniline-phosphoric acid stain - Gal d-galactose - Glc d-glucose - Man d-mannose - Mes 2-(N-morpholino)ethane sulphonic acid - Rha d-rhamnose - Rib d-ribose - TFA trifluoroacetic acid - UDPGlc uridine-diphosphate glucose - Xyl d-xylose This research was supported by funds from a Special Research Centre of the Australian Research Council. H.S. was funded by a Melbourne University Postgraduate Scholarship and an Overseas Postgraduate Research Studentship; S.M.R. was supported by a Queen Elizabeth II Research Fellowship. We thank Bruce McGinness and Susan Mau for greenhouse assistance, and Deborah Delmer and Adrienne Clarke for advice and encouragement throughout this project.     

Protein synthesis in tobacco pollen tubes: preferential synthesis of cell-wall 69-kDa and 66-kDa glycoproteins

One- and two-dimensional electrophoresis of Nicotiana tabacum pollen and pollen tube proteins confirmed that a new protein is preferentially synthesized during pollen germination and tube growth and becomes the most abundant protein in pollen tubes. Analysis of proteins extracted with sodium dodecyl sulfate (SDS) from different pollen tube fractions showed that it is the most abundant non-covalently bound wall protein, characterized by molecular mass of 69 kDa, pI between 7.9 and 8.2, and glycosylation with glucose and/or mannose. Amino acid analysis revealed relative abundance of serine, glutamic acid and glycine, but did not show the presence of hydroxyproline. According to all these characteristics, it cannot be classified as an extensin-like protein. Another prominent wall-bound glycoprotein has a molecular mass of 66 kDa and the same pI as the 69 kDa glycoprotein. These two glycoproteins are similar also in ConA binding, rate of synthesis, and rapid incorporation into pollen tube walls. Their synthesis is strongly reduced by tunicamycin and this inhibition results in the occurrence of new polypeptides in the range of 57–61 kDa. Tunicamycin also inhibited pollen tube growth. At 10 ng ml^-1 and 50 ng ml^-1 the inhibitor reduced pollen tube mass after 24 h of culture by 30% and 85%, respectively. This indicates that tobacco pollen presents a system highly sensitive to tunicamycin and that cotranslational N-linked glycosylation on the rough endoplasmic reticulum is required for 66 and 69 kDa glycoprotein formation and for pollen tube growth. Although other proteins appear during pollen germination and tube growth, the new proteins occur at low levels and seem to originate through modifications of preexisting polypeptides. In contrast to 69 and 66 kDa proteins, most proteins detected by [¹⁴C]amino acid incorporation and fluorography of gels were not revealed by Coomassie blue staining.     

Microtubules in pollen tube subprotoplasts: organization during protoplast formation and protoplast outgrowth

Summary Microtubules inNicotiana tabacum pollen tube subprotoplasts reassembled in wave-like to concentric cortical arrays. Crosslinks between microtubules were either 15 or 80 nm in length. Cortical actin filaments showed different distributions; no colocalization like that in pollen tubes was observed. Degradation of actin filaments by cytochalasin D had no influence on microtubule organization. Degradation of microtubules and/or actin filaments did not affect outgrowth of the subprotoplasts. Organization of the microtubules occurred independent of the presence of the generative cell and/or the vegetative nucleus. No relation of actin filament and microtubule organization with organelle distribution could be detected.Abbreviations AFs actin filaments - DAPI 4,6-diamidino-2-phenylindole - EGTA ethylene glycol bis (2-amino ethylether) N,N,N,N-tetraacetic acid - FITC fluorescein isothiocyanate - MTs microtubules - SPPs subprotoplasts - TRITC tetramethyl rhodamine B isothiocyanate     

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     

Derepression of the cell cycle by starvation is involved in the induction of tobacco pollen embryogenesis

Summary Microspectrophotometry following Feulgen staining and autoradiography following (³H)-thymidine labelling were used to study cell-cycle events during pollen development in tobacco (Nicotiana tabacum L.). During normal gametophytic pollen development in the anther and in vitro the generative nucleus passes through the S phase to the G₂ phase soon after microspore mitosis, while the vegetative nucleus remains arrested in G₁ (=G₀). During embryogenie induction by an in vitro starvation treatment of immature pollen ongoing DNA replication in the generative nucleus is completed and followed by DNA replication in the vegetative cell in a large fraction of the pollen grains. Addition of the DNA replication inhibitor hydroxyurea to the starvation medium postpones S phase entry until the pollen is transferred to a rich medium and does not affect embryo formation. These results demonstrate that one of the crucial events of embryogenic induction is the derepression of the G₁ arrest in the cell cycle of the vegetative cell.     

Distribution of calcium in the stigma and style of tobacco during pollen germination and tube elongation

Potassium antimonate was used to locate loosely bound calcium in the stigma and style of tobacco. The tobacco stigma is wet and covered by a thick layer of glycoprotein exudate at anthesis. The exudate contains abundant vesicles, which are densely labeled with calcium precipitates. When pollen grains arrive at the stigma, become hydrated, and as the pollen swells, Ca²⁺ precipitates accumulate at the aperture. Calcium precipitates that accumulate in pollen cytoplasm are initially concentrated within small vacuoles, but as germination proceeds these appear to fuse, forming prominent, densely labeled vesicles that preferentially accumulate near the proximal region of the growing tube. Although the stigma has abundant particles, few calcium precipitates are observed in the transmitting tissue from anthesis to 11 h after pollination. However, at 22 h after pollination, accumulation of calcium increases distally from the stigmatic interface with the transmitting tissue through the length of the style to the ovary. An examination of flowering plants with differing floral biology will be needed to understand the role of loosely bound calcium accumulation and its relationship to tissue-level changes in calcium uptake, maintenance of other calcium pools, including [Ca²⁺]_cyt, and in pollen and style maturation during the progamic phase.     

Effects of pollen-synthesized green fluorescent protein on pollen grain fitness

Genetically engineered pollen with a visible marker gene could be useful to monitor the movement of transgenic pollen provided there are no negative physiological or fitness effects of expressing such a gene. In this study, we measured the fitness of Nicotiana tabacum cv. Xanthi pollen expressing the marker gene green fluorescent protein (GFP). Average pollen tube germination frequencies and pollen tube growth rates in vitro were measured in three different types of plants: (1) plants producing GFP in pollen cells only (LAT59-GFP), (2) plants synthesizing GFP under the control of a constitutive promoter (CaMV 35S) in which no GFP was produced in pollen, and (3) non-transgenic plants. Pollen synthesizing the GFP protein did not differ significantly in average pollen germination frequencies from pollen without GFP (P=0.65). Average pollen tube growth rates over a 5-h period did not differ significantly between transgenic and non-transgenic types (R²=0.89, 0.98, and 0.95, respectively, for GFP-tagged, 35S-GFP, and wild type). Overall, GFP expression in pollen grains of tobacco was not found to have an effect on pollen fitness under the controlled experimental conditions of this study.     

Immunogold localization of arabinogalactan proteins,unesterified and esterified pectins in pollen grains and pollen tubes ofNicotiana tabacum L.

Summary The monoclonal antibodies JIM 5 (against unesterified pectin), JIM 7 (against methyl esterified pectin), MAC 207 (against arabinogalactan proteins, AGPs), and JIM 8 (against a subset of AGPs) were utilized singly or in combinations for immunogold labelling of germinated pollen grains and pollen tubes ofNicotiana tabacum. Pectins were localized in the inline of pollen grain, unesterified pectin being more abundant than the esterified one. AGPs were co-localized with pectin in the inline, but were present preferably close to the plasma membrane. In pollen tubes, AGPs, unesterified and esterified pectins were co-localized in the outer and middle layers of the cell wall. The density of the epitopes was not uniform along the length of the pollen tube, but showed alterations. In the pollen tube tip wall esterified pectin was abundantly present, but not AGPs. In the cytoplasm esterified pectin and AGPs were detected in Golgi derived vesicles, indicating their role in the pathway of the cell wall precursors. In the cell wall of generative cell only AGPs, but no pectins were localized. The co-localization of pectins and AGPs in the cell wall of pollen grain and pollen tube might play an important role, not only in maintenance of the cell shape, but also in cell-cell interaction during pollen tube growth and development.Abbreviations AGP arabinogalactan protein - BSA bovine serum albumin - GA glutaraldehyde - MAb monoclonal antibody - NGS normal goat serum - PFA paraformaldehyde     

Oleosin-like proteins are not present on the surface of tobacco pollen

Pollen-stigma interactions on wet- and dry-type stigmas involve similar processes: the hydration of the pollen, followed by pollen tube growth and penetration of the stigma. Furthermore, in some species, identical molecules, namely lipids, are used to achieve this. In addition to lipids, oleosin-like proteins of the pollen coat of dry-type stigma plants have been shown to be involved in pollen-stigma interactions. However, little information is present about the proteins on the surface of pollen of wet-type stigma plants, in particular that of the Solanaceae. To analyze proteins from the surface of pollen of Nicotiana tabacum (tobacco), a solanaceous plant, we used an antiserum raised against Brassica pollen coat, a dry-type stigma plant of the Brassicaceae. In addition we used a molecular approach to identify tobacco homologues of oleosin-like genes. Our results show that no proteins similar to Brassica oleracea pollen coat proteins are present on the surface of tobacco pollen, and that oleosin-like genes are not expressed in tobacco anthers or stigmas.     

Antisense transgenesis of tobacco with a flax pectin methylesterase affects pollen ornamentation

Summary. Antisense transgenesis of tobacco (Nicotiana tabacum) with a partial flax (Linum usitatissimum L.) pectin methylesterase (Lupme3) cDNA sequence yielded plants with altered pollen content. Moreover, the characteristically sculptured cell wall surrounding the pollen grains was modified in transgenic tobacco plants: the wavy ornamentation was dramatically reduced, suggesting the involvement of the demethylation of pectin in the pollen cell wall-specific structure. Germination of pollen was decreased and the pollen tube surface aspect was also different in transgenic plants.Correspondence and reprints: Laboratoire de Biotechnologies et Physiologie Végétales, Faculté des Sciences, Université de Picardie Jules Verne, 33 rue Saint-Leu, 80039 Amiens Cedex, France.     

Expression of the rice cytoplasmic cysteine synthase gene in tobacco reduces ozone-induced damage

Cysteine serves as a precursor for the synthesis of various sulfur-containing metabolites, and the cysteine synthase (CS) gene plays a central role in the sulfur cycle in nature. In the present study, rcs1, a cytosolic CS gene of rice, was introduced into the genome of tobacco (Nicotiana tabacum). The tolerance of wild-type tobacco plants as well as of the resulting transgenic tobacco plants overexpressing the rcs1 gene to toxic levels of ozone (O₃, 0.15 μ mol⁻¹) was measured after various lengths of exposure. Leaf lesions in plants exposed for 2 weeks to O₃ were more prevalent in the leaves of the wild-type plants than in those of the transgenic tobacco plants. Transgenic tobacco plants showed a higher growth rate and a higher chlorophyll content than the wild-type plants. Cysteine synthase activity and cysteine and glutathione contents were higher in transgenic plants than in wild-type plants irrespective of the length of the O₃ treatment. Our results indicate that the CS gene plays a role in the protection of the plant against toxic O₃ gas, probably through the mechanism of an over-accumulation of such sulfur-rich antioxidants as cysteine and glutathione.     

Transgenic tobacco plants expressing a rice cysteine synthase gene are tolerant to toxic levels of cadmium

Plants tolerate heavy metals through sequestration with cysteine-rich peptides, phytochelatins. In this reaction, the rate limiting step is considered to be the supply of cysteine, which is synthesized by cysteine synthase (CS, EC 4.2.99.8) from hydrogen sulfide andO-acetylserine. In this study, we transformed tobacco (Nicotiana tabacum) plants withRCS1, a cytosolic cysteine synthase gene of rice (Oryza sativa), and examined their sensitivity to cadmium. The transgenic plants had up to 3-fold higher activity of cysteine synthase than wild-type plants. Upon exposure to cadmium, they exhibited obvious tolerance with much greater growth than wild-type plants. The level of phytochelatins in shoots was higher in transgenic than in wild-type plants after cadmium treatment, suggesting that cadmium was actively trapped by phytochelatins. However, the cadmium concentration per g fresh weight of whole transgenic plants was 20 percnt; lower than that of wild-type plants, suggesting cadmium to be either actively excreted or diluted by fast growth. Genetic analysis of progenies clearly showed segregation of cadmium tolerance, indicating that the trait resulted from the introduced gene. These results suggest that introduction of a cysteine synthase gene into tobacco plants resulted not only in high level production of sulfur-containing compounds that detoxify cadmium, but also in active elimination of cadmium toxicity from plant bodies.     

Production of fertile tobacco pollen from microspores in suspension culture and its storage for in situ pollination

Summary A simple procedure is described for the in vitro production of tobacco (Nicotiana tabacum L.) pollen from microspores isolated just before entering mitosis. During a 3-day culture period in a liquid medium containing pyrimidine nucleosides these microspores develop into young pollen grains to the stage of starch deposition. Pollen maturation and transition to dormancy is achieved during a further 2- to 3-day culture period in the same medium stepwise supplemented by a concentrated solution of sucrose and l-proline. Upon transfer of the pollen to a simple germination medium containing sucrose and boric acid, up to 40% of the grains were observed to produce relatively long tubes. The in vitro-matured pollen grains can be stored at-20° C either suspended in 1.17 M sucrose and 100 mM l-proline or separated from the medium on filter paper discs. The stored pollen germinated both in vitro and on the stigma, the pollen tubes grew through the style into the ovary and pollination produced up to 300 viable seeds per pod. The procedure is of interest for pollen developmental studies and various fields of pollen manipulation, such as in vitro pollen selection.     

Environmental control and evidence for predetermination of pollen embryogenesis inNicotiana tabacum pollen

Summary The effect of daylenght and temperature for the donor plants (Nicotiana tabacum var. Badischer Burley) on the formation of pollen competent for embryogenesis (P-pollen) by the three possible routes (during normal flower developmentin situ (pollen dimorphism), during cold-treatment of excised flower buds, in cultured anthers) was studied. In all three routes, P-pollen frequency (premitotic pollen, before 1. sporophytic division, PPF) was affected in essentially the same way. At 24 °C and long days, PPF was low and short days had only a slightly increasing effect. At 18 °C and long days, PPF was higher and short days further increased it. Correlated with PPF under the different growth regimes was the percentage of units with more than one vegetative-type nucleus (normal embryos + abortive embryos + multinucleate pollen) in 3 weeks old anther cultures. Under greenhouse conditions, PPF was generally higher than at 24° in growth rooms and showed a maximum in the winter months. Plant age did not affect PPF. These results give further evidence that pollen embryogenesis is predetermined before excision and culture of the pollen or anthers.     

The anti-centrosome monoclonal antibody 6C6 reacts with a plasma membrane-associated polypeptide of 77 kDa fromNicotiana tabacum pollen tubes

Summary In the pollen and pollen tube of higher plants, the distribution of the microtubular cytoskeleton has been extensively studied. Even though the pattern of microtubules is known, one of the most remarkable deficiencies is the absence of data on the localization of microtubule-nucleation sites in the pollen tubes. In order to get insights about the localization of centrosome-like structures in the pollen tube ofNicotiana tabacum L., we have used the monoclonal antibody 6C6 to search for pericentriolar antigen(s). The antibody was initially raised against a component of animal centrosomes and has been already employed to locate centrosomal structures in other plant cell types. By immunoblotting analysis, a polypeptide of Mr 77,000 was identified specifically in the membrane-associated protein fraction of the pollen tube, and is absent from the soluble protein pool. Immunofluorescence observations have shown the polypeptide to be located in the apical part of the pollen tube (about 40–50 m from the tip) in association with the cortical area. A purified plasma membrane fraction from the growing pollen tubes has been obtained, using H⁺-ATPase activity as an organelle marker. The plasma membrane fraction was shown to be enriched in the M_r 77,000 polypeptide, which can be extracted from membranes by treatment with the detergent CHAPS at a concentration of 0.5%. These data open new research perspectives on the localization and analysis of putative cortical microtubule nucleation sites in the pollen tube.Abbreviations ATP adenosine-5-triphosphate - CHAPS 3-[(3-cholamidopropyl)-dimethylammonio]-propanesulfonate - DTT dithiothreitol - EDTA ethylenediaminetetracetic acid - EGTA ethylene glycolbis(-amino-ethyl ether) N,N,N,N-tetraacetic acid - HEPES 4-(2-hydroxyethyl)-1-piperazineethane sulphonic acid - MES 2-(N-morpholino)ethane sulphonic acid - MT microtubule - SDS-PAGE sodium-dodecyl-sulphate polyacrylamide gel electrophoresis - PMSF phenylmethyl-sulphonyl-fluoride - TAME tosyl-arginine-methylester     

A functional study of stylar hydroxyproline-rich glycoproteins during pollen tube growth

Class III pistil-specific extensin-like proteins (PELPIII) are chimeric hydroxyproline-rich glycoproteins with properties of both extensins and arabinogalactan proteins. The abundance and specific localization of PELPIII in the intercellular matrix (IM) of tobacco (Nicotiana tabacum) stylar transmitting tissue, and translocation of PELPIII from the IM into the pollen tube wall after pollination, presume the biological function of these glycoproteins to be related to plant reproduction. Here we show that in in vitro assays the translocation of PELPIII is specifically directed to the callose inner wall of the pollen tubes, indicating that protein transfer is not dependent on the physiological conditions of the transmitting tract. We designed a set of experiments to elucidate the biological function of PELPIII in the stylar IM. To study the function of the specific interaction between PELPIII proteins and the pollen tube wall, one of the PELPIII proteins (MG15) was ectopically expressed in pollen tubes and targeted to the tube wall. We also generated transgenic tobacco plants in which PELPIII proteins were silenced. In vitro bioassays were performed to test the influence of purified PELPIII on pollen tube growth, as compared to tobacco transmitting tissue-specific proteins (TTS) that were previously shown to stimulate pollen tube growth. The various tests described for activity of PELPIII proteins all gave consistent and mutually affirmative results: the biological function of PELPIII proteins is not directly related to pollen tube growth. These data show that similar stylar glycoproteins may act very differently on pollen tubes.     

Methotrexate is a new selectable marker for tobacco immature pollen transformation

We report here a new selectable marker for tobacco immature pollen transformation based on the expression of dihydrofolate reductase (dhfr) gene which confers resistance to methotrexate (Mtx). Two immature pollen transformation approaches, i.e., male germ line transformation and particle bombardment of embryogenic mid-bicellular pollen have been used for the production of stable transgenic tobacco plants. In the first method, two methotrexate-resistant plants were selected from a total of 7161 seeds recovered after transformation experiments. In the second method, four methotrexate-resistant plants were obtained from 29 bombardments using 3.7×10⁵ pollen grains per bombardment. Southern analysis confirmed the transgenic nature of T₀ and T₁ candidate transgenic plants, and a genetic analysis showed that the transgenes are transmitted to subsequent generations.