Pectin secretion and distribution in the anther during pollen development in Lilium

Using the monoclonal antibodies JIM 5 and 7, pectin was immunolocalized and quantitatively assayed in three anther compartments of Lilium hybrida during pollen development. Pectin levels in both the anther wall and the loculus increased following meiosis, were maximal during the early microspore stages and declined during the remainder of pollen ontogenesis. In the microspores/pollen grains, pectin was detectable at low levels during the microspore stages but accumulated significantly during pollen maturation. During early microspore vacuolation, esterified pectin epitopes were detected both in the tapetum cytoplasm and vacuoles. In the anther loculus, the same epitopes were located simultaneously in undulations of the plasma membrane and in the locular fluid. At the end of microspore vacuolation, esterified pectin epitopes were present within the lipids of the pollenkitt, and released in the loculus at pollen mitosis. Unesterified pectin epitopes were hardly detectable in the cytoplasm of the young microspore but were as abundant in the primexine matrix as in the loculus. During pollen maturation, both unesterified and esterified pectin labelling accumulated in the cytoplasm of the vegetative cell, concurrently with starch degradation. In the mature pollen grain, unesterified pectin epitopes were located in the proximal intine whereas esterified pectin epitopes were deposited in the distal intine. These data suggest that during early microspore development, the tapetum secretes pectin, which is transferred to the primexine matrix via the locular fluid. Further, pectin is demonstrated to constitute a significant component of the pollen carbohydrate reserves in the mature grain of Lilium. Received: 3 July 2000 / Accepted: 19 October 2000     

Effects of copper deficiency on pollen fertility and nucleic acids in the durum wheat anther

Summary The effects of continuous copper deficiency and of temporary deficiencies initiated prior to (initial deficiency) or after (terminal deficiency) the end of tillering (a stage preceding the meiotic cycle) on pollen formation were investigated in durum wheat grown on a nutrient solution. The effects of the treatments on pollen viability (FCR test) and on the proline content of the pollen grains suggested that copper deficiency induced a nearly complete sterility of the pollen formed and inhibited all grain production. Temporary copper deficiencies significantly reduced the viability rate and the number of proline-rich pollen grains without affecting pollengrain production. Cytophotometric measurements showed that initial copper deficiency induced a significant increase in the proportion of polyploid microspore mother cells (MMCs), whereas terminal copper deficiency blocked endomitotic DNA syntheses. Protein metabolism was markedly altered by the treatments. The RNA content of the cytoplasm of tapetum cells was decreased by 34%–48%, depending on the treatment. The autoradiographic study showed that the stress caused by copper deficiency enhanced [³H]uridine incorporation into microspore cytoplasm RNA and also into the tapetum cells in the case of temporary deficiencies. The incidence of the treatments on the ploidy of the mother cells and on the disturbance of protein metabolism, particularly in tapetum cells, is discussed.     

Effects of temperature on the mode of pollen development in anther culture of Brassica campestris

In anther culture of Brassica campestris L., the yield of pollen-derived embryoids is greatly stimulated by a high-temperature (35°C) tratment for the first 1 to 3 days of the culture. We have inestigated the effects of the high-temperature treatment on the mode of pollen division in cultured anthers.
Anthers containing late uninucleate pollen were cultured on modified B5 medium. High-temperature treatment for the first 24 h inhibited the normal development of the pollen and induced abnormal symmetrical division. Which is the first step in androgenesis. This symmetrical division was rarely observed in pollen developed in vivo. In anthers cultured without high-temperature treatment, the mode of pollen development was similar to that in vivo. This suggests that the normal differentiation of the pollen is blocked by high temperatures, and sporophtic growth is induced. Sucrose (0.29 M) was essential for the induction of this symmetrical division, though neither plant growth regulator nor any other nurient was necessary. Pollen division could not be induced effectively if sucrose was replaced by either mannitol or sorbitol plus a lower concentration of sucrose. Therefore, it seems that sucrose actively influences the embryogenic division of pollen, and does not have only an osmotic effect.     

Patterns of protein expression in water-stressed wheat chloroplasts

The performance of control and water-stressed 10-d-old wheat seedlings was compared. During short-term water stress (irrigation was withheld for 9 d), rates of photosynthesis and transpiration, stomatal conductance, and relative water content decreased whereas the proline content increased. Chloroplast proteins were extracted from the leaves, separated by iso-electric focusing through two-dimensional electrophoresis, and stained with CBB R-250. Differentially expressed proteins were detected and analyzed with MALDI-TOF/TOF mass spectrometry. Under water stress, 9 proteins were up-regulated whereas 11 proteins were not affected. The ribulose-1,5-bisphospate carboxylase/oxygenase (Rubisco) small and large subunits, chloride carrier/channel family, and H⁺-ATPase were up-regulated by water stress whereas membrane-bound ATP synthase subunit b and cytochrome b6-f complex were down-regulated.     

Wax-deficient anther1 is involved in cuticle and wax production in rice anther walls and is required for pollen development

In vegetative leaf tissues, cuticles including cuticular waxes are important for protection against nonstomatal water loss and pathogen infection as well as for adaptations to environmental stress. However, their roles in the anther wall are rarely studied. The innermost layer of the anther wall (the tapetum) is essential for generating male gametes. Here, we report the characterization of a T-DNA insertional mutant in the Wax-deficient anther1 (Wda1) gene of rice (Oryza sativa), which shows significant defects in the biosynthesis of very-long-chain fatty acids in both layers. This gene is strongly expressed in the epidermal cells of anthers. Scanning electron microscopy analyses showed that epicuticular wax crystals were absent in the outer layer of the anther and that microspore development was severely retarded and finally disrupted as a result of defective pollen exine formation in the mutant anthers. These biochemical and developmental defects in tapetum found in wda1 mutants are earlier events than those in other male-sterile mutants, which showed defects of lipidic molecules in exine. Our findings provide new insights into the biochemical and developmental aspects of the role of waxes in microspore exine development in the tapetum as well as the role of epicuticular waxes in anther expansion.     

化学杂交剂GENESIS诱导小麦雄性不育的细胞形态学观察

在小麦幼穗发育期的药隔期至四分体期 ,用 5 .0 kg/ hm2剂量的 GENESIS进行处理 ,结果表明 ,GENESIS可诱导小麦产生 10 0 %的雄性不育率 ,且不育株率超过 99%以上 ,具有良好的诱导雄性不育的效果 .小麦经 GENE-SIS处理后 ,小孢子发育出现异常 ,败育型小孢子有单核花粉、二核花粉和不正常的三核花粉 ,同时还发现有四核和五核花粉以及在花粉发育过程中原生质体解体 ,仅留下花粉壁的空壳花粉 .不育花药不开裂 ,花粉囊除了表皮及纤维层外 ,还可观察到延迟解体的绒毡层 ,绒毡层的延迟解体可能影响了小孢子的发育     

Post-meiotic deficient anther1 (PDA1) encodes an ABC transporter required for the development of anther cuticle and pollen exine in rice

The tapetum of the anther locule encloses the male reproductive cells and plays a supportive role for normal pollen development. However, the underlying mechanism remains less understood. Previously, we identified a complete recessive male sterile mutant, post-meiotic deficient anther1 (pda1), with abnormal postmeiotic tapetal development. In this study we comprehensively characterized pda1. Chemical analysis uncovered that pda1 anther had significant lower levels of cutin monomers and cuticular waxes. PDA1 gene encodes an ATP-binding cassette (ABC) half-transporter, namely OsABCG15, which is conserved from algae to higher plants. In situ RNA hybridization assay showed that PDA1 is strongly expressed in tapetal cells, and weakly in microspores during the anther development. Additionally, the expression of two pollen exine biosynthetic genes CYP704B2 and CYP703A3 was dramatically reduced in pda1 mutant anthers. Altogether, these observations suggest that the tapetum-expressed ABC transporter PDA1 plays a crucial role in secreting lipidic precursors from the tapetum to developing microspores and the anther epidermis.     

大白菜雄性不育系88—3花药和花粉发育的细胞形态学观察

大白菜雄怀不育两用系88－3的不育株,其开花时花药内无花粉粒,败育从小孢子母细胞至二核花粉粒皆有发生,高峰期在末期Ⅱ前后,小孢子母细胞不能进入减数分裂和小孢子母细胞不能完成减数分裂及孢子不能正常发育是雄性败育的主要形式;败育一旦发生便是急剧而彻底地解体或凝聚成一团是败育的共同点,中层组织、绒毡层组织及药隔维管束异常均是雄性败育的因素。     

Barley anther culture: The effect of position on pollen development in vivo and in vitro

Locule structure and organization were studied in vivo and in vitro to determine whether the disposition of pollen within barley anthers affected the response of pollen in culture. Following release from the meiotic tetrads, juvenile barley microspores become peripherally organized around the locule, with the single pollen pore oriented towards the tapetum. Scanning electron micrographs of transverse sections from freeze fractured anthers showed that some microspores failed to locate the tapetal surface and occupied a position in the centre of the locule where they continued to develop as small, abnormal pollen grains (dimorphic pollen). Previous evidence has suggested that in some species dimorphic pollen could be the source of embryonic pollen in vitro. Cultured anthers frequently dehisced to reveal a mass of dividing pollen grains, however those anthers that remained intact retained the original locule structure and could be freeze fractured permitting examination of the developing pollen in situ. This showed that pollen embryogenesis was not restricted to dimorphic pollen, and that any grain could become Embryogenic irrespective of position.     

A novel endo-beta-mannanase gene in tomato LeMAN5 is associated with anther and pollen development

Endo-beta-mannanase (EC 3.2.1.78) is involved in cell wall disassembly and the weakening of plant tissues by degrading mannan polymers in the cell walls. Endo-beta-mannanase genes are expressed in tomato (Lycopersicon esculentum) seeds (LeMAN1 and LeMAN2) and fruits (LeMAN3 and LeMAN4). A novel endo-beta-mannanase gene (termed LeMAN5) was found in the tomato genome by genome-walking PCR and bacterial artificial chromosome library screening. The 5'-upstream region of this endo-beta-mannanase gene contained four copies of the pollen-specific cis-acting elements POLLEN1LELAT52 (AGAAA). A GUS-reporter gene driven with the putative LeMAN5 promoter (-543 to +38) was activated in anthers and pollen of transgenic Arabidopsis, with the highest beta-glucuronidase activity detected in pollen. beta-Glucuronidase expression was detected in mature pollen retained in sporangia, discharged pollen, and elongating pollen tubes in transgenic Arabidopsis. Consistently, expression of LeMAN5 mRNA and endo-beta-mannnanase activity was detected in tomato anthers and pollen. In anthers, the highest mRNA expression and endo-beta-mannanase activity were detected during late stages of anther development, when pollen maturation occurred. Endo-beta-mannanase activity was present in discharged pollen, which was easily eluted in a buffer, indicating that the enzyme proteins are probably secreted from, and deposited on, the surface of pollen. These data suggest that the LeMAN5 endo-beta-mannanase is associated with anther and pollen development.     

Reciprocal effects in anther cultures of wheat hybrids

This study was conducted to determine the reciprocal effects for anther culture response in wheat (Triticum aestivum L.) using a set of 4 × 4 full diallel crosses. Both reciprocal and nuclear genetic effects were highly significant for anther culture response and useful for selection and breeding purposes. General combining ability (GCA) effects were predominant for all investigated anther culture traits. Also, significant differences for specific combining ability (SCA) effects were detected between reciprocal crosses. Although significant reciprocal differences for responding anther, callus number and green plant regeneration were recorded in some reciprocal crosses, there were no significant reciprocal differences for albino plant regeneration. The use of one parent as male or female could lead to change at the production of green plants from the F₁ hybrids and screening of inbred lines for response to anther culture, without reciprocal effects, could decrease the utilization of breeding material.     

Selective elimination of alleles in rice anther cultures

The nature of heterosis is discussed and selective elimination of alleles (introduced in the hybrid genotype by the parental forms) in anther culture is shown. This supports the possibility of removing viability-reducing alleles (lethal, semilethal, and less effective alleles) from the genotypes of heterotic hybrids in anther culture.