Applications of Fluorochromes to Pollen Biology. I. Mithramycin and 4',6-Diamidino-2-Phenylindole (Dapi) as Vital Stains and for Quantitation of Nuclear Dna

The two DNA-specific fluorochromes DAPI and mithramycin have been found to be extremely useful dyes in studies of pollen development and growth. Both fluorochromes stain nuclei brilliantly either in fixed or in living tricellular and bicellular angiosperm pollen, thereby permitting rapid scanning for pollen abnormalities and easy observation of nuclear details. These water soluble dyes can be incorporated into the germination medium for studies of pollen germination in vitro, facilitating observation of the movement of generative, sperm and tube nuclei during pollen growth. In fixed pollen, the fluorochromes bind quantitatively with DNA and thus may be used to quantitate ploidy changes and to study cell cycles during pollen development, germination and fertilization.     

Changing patterns of nucleic acids, basic and acidic proteins in generative nuclei during pollen germination and pollen tube growth in Hippeastrum belladona

Generative and vegetative nuclei of mature and germinated pollen grains from Hippeastrum belladonna were separated in a continuous Ficoll gradient. Less than 3% contamination was observed between the generative and vegetative nuclear fractions. The vegetative nuclei were composed of two populations; the larger population consisted of nuclei with 1C levels of DNA and the smaller with 2C levels. The generative nuclei consisted of a homogeneous population composed of nuclei possessing 2C levels of DNA. Histone synthesis did not occur in vegetative nuclei. Changes appeared in the gel-electrophoretic banding patterns of the F1 histones of vegetative nuclei during germination. Changes were not observed in the generative nuclei. A reduction of general proteins and RNA was observed in vegetative nuclei by 20 h of germination. The phenol-soluble nuclear proteins of vegetative nuclei revealed transitions in electrophoretic banding patterns during pollen germination that were greater than those shown by the histones. These changes in the PSNP primarily involved reduced concentrations of certain proteins rather than synthesis of new ones. However, a new band was observed in the electrophoretic pattern of the PSNP of vegetative nuclei after 12 h of pollen tube growth. No transition was seen in the PSNP of generative nuclei during pollen germination and tube growth. The regulatory role of the PSNP in cell differentiation is discussed in the light of these findings.     

Unstainable DNA in cell nuclei. Comparison of ten different fluorochromes

Ten fluorochromes with specificity for DNA were used to compare the stainability of nuclei of exponentially growing, nondifferentiated Friend leukemia (FL) cells with that of dimethylsulfoxide-induced, fully differentiated FL cell nuclei. Decreased accessibility of DNA to several dyes, particularly pronounced in the case of some intercalators, was observed in differentiated cells. Dye binding was also compared for both sets of nuclei following extraction of nuclear proteins, mostly histones, with 0.1-N HCl. Acid extraction of nuclear proteins increased the accessibility of DNA to varying degrees, depending upon the fluorochrome. In most cases, the differences in fluorescence between differentiated and nondifferentiated nuclei stained with most intercalating dyes was abolished by acid treatment. The results are discussed in terms of the mode of interaction between DNA and the various fluorochromes and the factors associated with chromatin structure, which may affect or be associated with different degrees of proliferative activity.     

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

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

Pollen performance, cell number, and physiological state in the early-divergent angiosperm Annona cherimola Mill. (Annonaceae) are related to environmental conditions during the final stages of pollen development

Pollen performance is an important determinant for fertilization success, but high variability in pollen behavior both between and within species occurs in different years and under varying environmental conditions. Annona cherimola, an early-divergent angiosperm, is a species that releases a variable ratio of bicellular and tricellular hydrated pollen at anther dehiscence depending on temperature. The presence of both bi- and tricellular types of pollen is an uncommon characteristic in angiosperms and makes Annona cherimola an interesting model to study the effect of varying environmental conditions on subsequent pollen performance during the final stages of pollen development. In this work, we study the influence of changes in temperature and humidity during the final stages of pollen development on subsequent pollen performance, evaluating pollen germination, presence of carbohydrates, number of nuclei, and water content. At 25?°C, which is the average field temperature during the flowering period of this species, pollen had a viability of 60-70?%, starch hydrolyzed just prior to shedding, and pollen mitosis II was taking place, resulting in a mixture of bi- and tricellular pollen. This activity may be related to the pollen retaining 70?% water content at shedding. Temperatures above 30?°C resulted in a decrease in pollen germination, whereas lower temperatures did not have a clear influence on pollen germination, although they did have a clear effect on starch hydrolysis. On the other hand, slightly higher dehydration accelerated mitosis II, whereas strong dehydration arrested starch hydrolysis and reduced pollen germination. These results show a significant influence of environmental conditions on myriad pollen characteristics during the final stages of pollen development modifying subsequent pollen behavior and contributing to our understanding of the variability observed in pollen tube performance.     

Molecular evidence that most RNAs required for germination and pollen tube growth are stored in the mature pollen grain in petunia

After landing on the stigma, the pollen grain germinates and elongates a tube to deliver its generative nuclei to the egg cell of the ovule. The molecular mechanisms involved in the drastic morphological changes in the pollen grain during this fertilization process remain largely unknown. In this study, the expression of 732 randomly selected genes in petunia pollen and pollen tubes was analyzed by microarray and quantitative PCR analyses. We found no evidence for up-regulation of any of these genes in the pollen tube. Our findings provide support at the gene level for the longstanding hypothesis that pollen germination and tube growth are not dependent on new RNA synthesis and that the large number of RNAs required for germination and tube growth are stored in mature pollen grains.     

Temperature as a determinant factor for increased and reproducible in vitro pollen germination in Arabidopsis thaliana

Despite much effort, a robust protocol for in vitro germination of Arabidopsis thaliana pollen has been elusive. Here we show that controlled temperatures, a largely disregarded factor in previous studies, and a simple optimized medium, solidified or liquid, yielded pollen germination rates above 80% and pollen tube lengths of hundreds of microns, with both Columbia and Landsberg erecta (Ler) ecotypes. We found that pollen germination and tube growth were dependent on pollen density in both liquid and solid medium. Pollen germination rates were not substantially affected by flower or plant age. The quartet1 mutation negatively affected pollen germination, especially in the Ler ecotype. This protocol will facilitate functional analyses of insertional mutants affecting male gametophyte function, and should allow detailed gene expression analyses during pollen tube growth. Arabidopsis thaliana can now be included on the list of plant species that are suitable models for physiological studies of pollen tube elongation and tip growth.     

Identification of a pollen-specific sucrose transporter-like protein NtSUT3 from tobacco.

Pollen cells are symplasmically isolated during maturation and germination. Pollen therefore needs to take up nutrients via membrane carriers. Physiological measurements on pollen indicate sucrose transport in the pollen tube. A cDNA encoding a pollen-specific sucrose transporter-like protein NtSUT3 was isolated from a tobacco pollen cDNA library. NtSUT3 expression is detected only in pollen and is restricted to late pollen development, pollen germination and pollen tube growth. Altogether these data indicate that pollen is supplied not only with glucose, but also with sucrose through a specific sucrose transporter. The respective contribution of each transport pathway may change during pollen tube growth.     

Interactions of fluorescent mercurial compounds and acidic fluorochromes with isolated living cells and nuclei

Summary Two fluorescent mercurials (fluorescein mercuric acetate and merbromin) and two acidic fluorochromes (brilliant sulfoflavine and primuline) were tested as supravital fluorochromes and compared with the fluorescent probe for hydrophobic groups, 8-anilino-1-naphthalene-sulfonic acid (ANS). Neither the mercurials nor the acidic fluorochromes appeared to penetrate intact cells, but all of the dyes fluorochromed damaged cells in a characteristic fashion. Expriments were then undertaken on nuclei isolated in 0.25 M sucrose. The fluorescent mercurials produced fluorescence of the nuclear envelope and nucleoli. More generalized fluorescence was induced if nuclei remained for prolonged periods in saline solutions balanced for intact cells or in nuclei exposed to 0.2 N hydrochloric acid. Acidic fluorochromes produced a more generalized distributional pattern of fluorescence. Primuline produced substantially more intense nuclear fluorescence than brilliant sulfoflavine at equimolar concentrations. Considered as a whole, these results indicate that an examination of the interaction of fluorescent dyes with unfixed cellular components could prove to be a useful tool in cell biology, particularly in the investigation of nuclear function.Supported in part by GRS-FR-5394 to the Albany Medical College.     

In vitro pollen germination and pollen tube growth differences among Quercus robur L. clones in response to meteorological conditions

The impact of meteorological conditions on in vitro pollen germination and pollen tube growth during the initial phases of the development of male flowers in the Pedunculate Oak, Quercus robur, is studied. Phenological observations of male flowers and pollen sampling were performed on the field trial established with grafted Pedunculate Oak clones. During the investigation, weather conditions (absolute minimum and maximum daily air temperature, minimum absolute relative humidity of air and amount of precipitation) were recorded by an automatic meteorological station installed at the field trial. Influence of meteorological conditions on pollen germination and pollen tube growth was studied in the following stages of male flower: (I) during the last ten days of flower bud dormancy, (II) during swelling of the buds, (III) during bud burst and beginning of male catkins elongation, (IV) during the final stage of male flower catkins elongation. High temperatures and low relative air humidity during the bud burst and beginning of the male catkins elongation reduced pollen germination and pollen tube growth. Weather conditions did not significantly affect pollen germination and pollen tube growth during the swelling of flower buds, or in the final stage of male catkins elongation.     

Differential localization of the LIM domain protein PLIM-1 in microspores and mature pollen grains from sunflower

 PLIM-1 is a LIM domain protein specifically expressed in pollen grains. Using two PLIM-1-specific monoclonal antibodies we studied its expression and intracellular location at various developmental stages of sunflower (Helianthus annuus L.) pollen. Our studies show that the protein appears at the microspore stage in a limited number of cytoplasmic bodies, becomes undetectable in bicellular pollen, and reappears in tricellular pollen grains in cortical patches particularly concentrated in the F-actin-enriched germination cones of the vegetative cell. The developmental stage-dependent, different location of the protein suggests a dual function during pollen development. While this function in microspore development remains obscure, the high concentration of PLIM-1 in the germination cones of mature pollen suggests that it participates in the germination process as well as in pollen tube growth. Received: 11 August 1998 / Revision accepted: 15 December 1998     

Behavior of storage lipids during development and germination of olive ( Olea europaea L.) pollen

Summary.  The presence of abundant oil bodies in the mature olive pollen grain has led us to focus on the behavior of these lipid bodies during pollen development and in vitro pollen germination. The appearance, increase, and accumulation of lipid bodies have been determined by following the sequential development of the pollen grain. Semithin slices of anthers and pollen grains were stained with Sudan Black B in order to identify neutral lipids. Ultrastructural studies were also carried out. Our results show a notable increase in lipid bodies between the young-pollen-grain stage and the mature-pollen-grain stage. Substantial polarization of lipid bodies was observed after 1 or 2 h of pollen incubation in germination medium. During pollen tube growth, the lipid bodies are located near the germinative aperture after 3 h of incubation, as well as inside the pollen tube, thus suggesting that the lipid bodies move from the pollen grain to the pollen tube. After 7 h of germination the presence of lipid bodies inside the pollen tube is no longer substantial. Our results support the idea that lipid bodies are involved in pollen germination, stigma penetration, and pollen tube growth. These results are discussed in connection with their implications for the pollen germination process. Received June 4, 2002; accepted October 29, 2002; published online April 8, 2003 RID="*" ID="*" Correspondence and reprints: Departamento de Bioquímica, Biología Celular y Molecular de Plantas, Estación Experimental del Zaidín, Consejo Superior de Investigaciones Científicas, Profesor Albareda 1, 18008 Granada, Spain.     

希茉莉（Hamelia patens Jacq.）花粉发育时期快速检测

茜草科希茉莉（Hamelia patens Jacq.）的花粉用DAPI（4’,6-diamidino-2-phenylindole）直接染色不能观察到花粉核,本研究探索出适宜在DAPI染色前处理希茉莉花粉壁的水浴加热-氧化方法,使得希茉莉花粉核能在荧光显微镜下清晰地显示出来,从而快速检测花粉所处的发育阶段。结果表明：（1）单核花粉和二核花粉最适宜的水浴加热温度和时间分别为65℃、20~50 min和55℃、20~40 min;（2）花粉发育阶段与花朵、花药长度的对应关系为：花朵0.90~1.00 cm、花药0.50~0.60 cm时对应花粉的四分体时期,花朵1.10~1.60 cm、花药0.60~0.85 cm时对应单核花粉时期,花朵1.80~2.70 cm（花冠裂片张开前）、花药0.91~1.01 cm时对应二核花粉时期。     

Effects of brefeldin A on pollen germination and tube growth. Antagonistic effects on endocytosis and secretion

We assessed the effects of brefeldin A (BFA) on pollen tube development in Picea meyeri using fluorescent marker FM4-64 as a membrane-inserted endocytic/recycling marker, together with ultrastructural studies and Fourier transform infrared analysis of cell walls. BFA inhibited pollen germination and pollen tube growth, causing morphological changes in a dose-dependent manner, and pollen tube tip growth recovered after transferring into BFA-free medium. FM4-64 labeling showed typical bright apical staining in normally growing P. meyeri pollen tubes; this apical staining pattern differed from the V-formation pattern found in angiosperm pollen tubes. Confocal microscopy revealed that exocytosis was greatly inhibited in the presence of BFA. In contrast, the overall uptake of FM4-64 dye was about 2-fold that in the control after BFA (5 microg mL(-1)) treatment, revealing that BFA stimulated endocytosis in a manner opposite to the induced changes in exocytosis. Transmission electron microscopic observation showed that the number of secretory vesicles at the apical zone dramatically decreased, together with the disappearance of paramural bodies, while the number of vacuoles and other larger organelles increased. An acid phosphatase assay confirmed that the addition of BFA significantly inhibited secretory pathways. Importantly, Fourier transform infrared microspectroscopy documented significant changes in the cell wall composition of pollen tubes growing in the presence of BFA. These results suggest that enhanced endocytosis, together with inhibited secretion, is responsible for the retarded growth of pollen tubes induced by BFA.     

Live-cell microscopy of single nuclear chromosomes and genome compartments: evaluation of labeling procedure and imaging conditions.

BACKGROUND: Single chromosomes and genome compartments in nuclei of living mammalian cells can be analyzed microscopically after specific labeling with fluorescent dyes. This is achieved by incorporating fluorescent nucleotides into the chromosomal DNA during replication (Zink et al.: Hum Genet 102:241-251, 1998; Manders et al.: J Cell Biol 144:813-821, 1999; Sadoni et al.: J Cell Biol 146:1211-1226, 1999). We characterized the potential artificial impact of this approach on chromosome structure and dynamics. We also evaluated potential sources of artifacts in corresponding live-cell imaging. MATERIALS AND METHODS: The subchromosomal distribution of labeled DNA was analyzed, and the fate of labeled nucleotides within cell nuclei was studied. Cell-cycle parameters were used to analyze cell function after incorporation of fluorescent nucleotides. The influences of phototoxic effects on cell division and morphology were studied. RESULTS: Fluorescent nucleotides were only incorporated for a restricted time period during S-phase, and a uniform labeling of chromosomal DNA could not be achieved. Fluorescent nucleotides incorporated into the DNA showed no or only mild effects on cell growth. Cell-cycle parameters and cellular morphology were valuable indicators for proper cell function during live-cell imaging. CONCLUSIONS: There is no indication for a substantial impairment of cellular functions if fluorochromes are covalently linked to chromosomal DNA. The controls we present for proper cell function during the imaging period are of general importance, as appropriate controls for live cell microscopy have not yet been well-defined.     

Free IAA in stigmas and styles during pollen germination and pollen tube growth of Nicotiana tabacum

Although many studies have emphasized the importance of auxin in plant growth and development, the thorough understanding of its effect on pollen–pistil interactions is largely unknown. In this study, we investigated the role of free IAA in pollen–pistil interactions during pollen germination and tube growth in Nicotiana tabacum L. through using histo and subcellular immunolocalization with auxin monoclonal antibodies, quantification by HPLC and ELISA together with GUS staining in DR5::GUS -transformed plants. The results showed that free IAA in unpollinated styles was higher in the apical part and basal part than in the middle part, and it was more abundant in the transmitting tissue (TT). At the stage of pollen germination, IAA reached its highest content in the stigma and was mainly distributed in TT. After the pollen tubes entered the styles, the signal increased in the part where pollen tubes would enter and then rapidly declined in the part where pollen tubes had penetrated. Subcellular localization confirmed the presence of IAA in TT cells of stigmas and styles. Accordingly, a schematic diagram summarizes the changing pattern of free IAA level during flowering, pollination and pollen tube growth. Furthermore, we presented evidence that low concentration of exogenous IAA could, to a certain extent, facilitate in vitro pollen tube growth. These results suggest that IAA may be directly or indirectly involved in the pollen–pistil interactions. Additionally, some improvements of the IAA immunolocalization technique were made.     

Toward in vitro fertilization in Brachiaria spp.

Brachiaria are forage grasses widely cultivated in tropical areas. In vitro pollination was applied to accessions of Brachiaria spp. by placing pollen of non-dehiscent anthers on a solid medium near isolated ovaries. Viability and in vitro germination were tested in order to establish good conditions for pollen development. Comparing sexual to apomictic plants, apomictic pollen has more abortion after meiosis during the microspore stage and a lower viability and, of both types, only some plants have sufficient germination in a high sugar concentration. Using in vitro pollination with the sexual plant, the pollen tube penetrates into the nucellus and micropyle, but the embryo sac degenerates and collapses. In the apomictic B. decumbens, in vitro pollination leads to the transfer of the sperm nuclei into the egg cell and the central cell. The results are discussed according to normal fertilization and barriers in sexual and apomictic plants.     

Inhibition of RNA and protein synthesis in pollen tube development of Pinus bungeana by actinomycin D and cycloheximide

* The effects of actinomycin D and cycloheximide on RNA and protein synthesis were investigated during pollen tube development of Pinus bungeana. * RNA and protein contents, protein expression patterns, cell wall components and ultrastructural changes of pollen tubes were studied using spectrophotometry, SDS-PAGE electrophoresis, Fourier transformed infrared (FTIR) microspectroscopy and transmission electron microscopy (TEM). * Pollen grains germinated in the presence of actinomycin D, but tube elongation and RNA synthesis were inhibited. By contrast, cycloheximide inhibited pollen germination and protein synthesis, induced abnormal tube morphology, and retarded the tube growth rate. SDS-PAGE analysis showed that protein expression patterns changed distinctly, with some proteins being specific for each phase. FTIR microspectroscopy established significant changes in the chemical composition of pollen tube walls. TEM analysis revealed the inhibitors caused disintegration of organelles involved in the secretory system. * These results suggested RNA necessary for pollen germination and early tube growth were present already in the pollen grains before germination, while the initiation of germination and the maintenance of pollen tube elongation depended on continuous protein synthesis.