Cloning and characterisation of a putative pollen‐specific polygalacturonase gene (CpPG1) differentially regulated during pollen development in zucchini (Cucurbita pepo L.)

Studies in zucchini (Cucurbita pepo L. spp. pepo) pollen have been limited to the viability and morphology of the mature pollen grain. The enzyme polygalacturonase (PG) is involved in pollen development and pollination in many species. In this work, we study anther and pollen development of C. pepo and present the cloning and characterisation of a putative PG CpPG1 (Accession no. HQ232488 ) from pollen cDNA in C. pepo. The predicted protein for CpPG1 has 416 amino acids, with a high homology to other pollen PGs, such as P22 from Oenothera organensis (76%) and PGA3 from Arabidopsis thaliana (73%). CpPG1 belongs to clade C, which comprises PGs expressed in pollen, and presents a 34 amino acid signal peptide for secretion towards the cell wall. DNA‐blot analysis revealed that there are at least another two genes that code for PGs in C. pepo. The spatial and temporal accumulation of CpPG1 was studied by semi‐quantitative‐ and qRT‐PCR. In addition, mRNA was detected only in anthers, pollen and the rudimentary anthers of bisexual flowers (only present in some zucchini cultivars under certain environmental conditions that trigger anther development in the third whorl of female flowers). However, no expression was detected in cotyledons, stem or fruit. Furthermore, CpPG1 mRNA was accumulated throughout anther development, with the highest expression found in mature pollen. Similarly, exo‐PG activity increased from immature anther stages to mature anthers and mature pollen. Overall, these data support the pollen specificity of this gene and suggest an involvement of CpPG1 in pollen development in C. pepo.     

Pollen gene expression analysed by micro-isoelectric focusing of proteins from isolated pollen grains in Cucurbita pepo L.

Summary Isoelectric focusing of proteins from single pollen grains of Cucurbita pepo L. has been developed for large scale study of pollen grain populations' heterogeneity. Forty to forty-five protein bands from one pollen grain are revealed after silver staining. Applications of this technique to pollen grain populations from different genotypes are described in this paper. Possible applications and limits of this technique are discussed with respect to plant breeding especially for the measure of gene frequencies in pollen grain populations.The work was partly supported by a grant from LIMAGRAIN and AGPM     

Viability of Cururbita pepo pollen: biophysical and structural data

During ageing of the short-lived pollen grains of Cucurbita pepo L., water loss was examined in relation to viability using biophysical (¹H-nuclear magnetic resonance, NMR) and cytological methods (fluorochromatic reaction test, freezefracture and scanning electron microscopy). A semi-logarithmic representation of the pollen weight loss demonstrated the complexity of the dehydration process. A the study of proton loss using ¹H-NMR indicated that two major releases water of had taken place, each with different flux rates. Pulse ¹H-NMR experiments showed the occurrene of non-exponential signal decay as a function of time, indicating the existence of different fractions of water in a pollen grain sample. These fractions leave the pollen grain at different times during pollen dehydration, and one of them (that of the so-called vital water) can be related to pollen viability. The quantity of protons giving a signal during pulse ¹H-NMR experiments was very low when the pollen grains were judged to be dead according to the fluorochromatic test. Freeze-fracture replicas of these dead pollen grains (less than 25% water content) showed that the plasma membrane had become detached from the intine surface; this ultrastructural feature might therefore be involved in the loss of pollen viability.Abbreviations A initial amplitude of the NMR signal - A₂ quantity of water charcterized by T_2-2 - A₅ quantity of water characterized by T_2–5 - FCR fluorochromatic reaction - NMR nuclear magnetic resonance - T₂ transverse relaxation time - T_2-2 T₂ measured with 2 ms between each pulse of radiofrequency - T_2–5 T₂ measured with 5 ms between each pulse of radiofrequency     

Carbohydrate metabolism before and after dehiscence in the recalcitrant pollen of pumpkin (Cucurbita pepo L.)

Pumpkin (Cucurbita pepo L.) pollen is starchy, sucrose‐poor and recalcitrant, features opposite to those of several model species; therefore, some differences in carbohydrate metabolism could be expected in this species. By studying pumpkin recalcitrant pollen, the objective was to provide new biochemical evidence to improve understanding of how carbohydrate metabolism might be involved in pollen functioning in advanced stages. Four stages were analysed: immature pollen from 1 day before anthesis, mature pollen, mature pollen exposed to the environment for 7 h, and pollen rehydrated in a culture medium. Pollen viability, water and carbohydrate content and activity of enzymes involved in carbohydrate metabolism were quantified in each stage. Pollen viability and water content dropped quickly after dehiscence, as expected. The slight changes in carbohydrate concentration and enzyme activity during pollen maturation contrast with major changes recorded with ageing and rehydration. Pumpkin pollen seems highly active and closely related to its surrounding environment in all the stages analysed; the latter is particularly evident among insoluble sucrolytic enzymes, mainly wall‐bound acid invertase, which would be the most relevant for sucrose cleavage. Each stage was characterised by a particular metabolic/enzymatic profile; some particular features, such as the minor changes during maturation, fast sucrolysis upon rehydration or sharp decrease in insoluble sucrolytic activity with ageing seem to be related to the lack of dormancy and recalcitrant nature of pumpkin pollen.     

Effects of pollen selection on progeny vigor in a Cucurbita pepo x C. texana hybrid

We examined the effects of pollen selection for rapid pollen-tube growth on progeny vigor. First, we crossed a wild gourd (Cucurbita texana) to a cultivated zucchini (Cucurbita pepo cv Black Beauty) to produce an F₁ and then an F₂ generation. Half of the F₁ seeds were produced by depositing small loads of C. texana pollen onto the stigmas of C. pepo. These small pollen loads were insufficient to produce a full complement of seeds and, consequently, both the fast- and the slow-growing pollen tubes were permitted to achieve fertilization. An F₂ generation was then produced by depositing small loads of F₁ pollen onto stigmas of F₁ plants. The F₂ seeds resulting from two generations of small pollen loads are termed the non-selected line because there was little or no selection for pollen-tube growth rate on these plants. The other half of the F₁ and F₂ seeds were produced by depositing large pollen loads (>10 000 pollen grains) onto stigmas and then allowing only the first 1% or so of the pollen tubes that entered the ovary to fertilize the ovules. We did this by excising the styles at the ovary at 12–15 h after pollination. The resulting F₂ seeds are termed the selected line because they were produced by two generations of selection for only the fastest growing pollen tubes. Small pollen loads from the F₂plants, both the selected and the non-selected lines, were then deposited onto stigmas of different C. pepo flowers, and the vigor of the resulting seeds was compared under greenhouse and field conditions. The results showed that the seeds fertilized by pollen from the selected line had greater vegetative vigor as seedlings and greater flower and fruit production as mature plants than the seeds fertilized by pollen from the non-selected line. This study demonstrates that selection for fast pollen-tube growth (selection on the microgametophyte) leads to a correlated increase in sporophyte (progeny) vigor.     

Effects of soil phosphorus on pollen production,pollen size,pollen phosphorus content,and the ability to sire seeds in Cucurbita pepo (Cucurbitaceae)

To determine the effects of soil phosphorus on pollen production, pollen grain size, phosphate concentration per pollen grain, and the siring ability of pollen, two cultivars of the common zucchini (Cucurbita pepo) were grown under two soil phosphorus conditions in an experimental garden. Overall, soil phosphorus availability had a significant effect on reproductive output through the female function and on traits affecting the male function of plants (staminate flower production, pollen production per flower, and pollen grain size). In addition, pollen produced by plants in the high phosphorus soils had a higher phosphate concentration than pollen produced by plants in the low phosphorus soils. A pollen mixture experiment revealed that pollen produced by plants in the high phosphorus treatment sired significantly more seeds than pollen produced by plants in the low phosphorus treatment. This study showed that growing conditions such as soil phosphorus can influence the size of a pollen grain and its chemical composition, which, in turn, can affect its ability to sire mature seeds.     

Plastid differentiation during Cucurbita pepo (Cucurbitaceae) pollen grain development

The development of plastids in the pollen of Cucurbita pepo was followed from meiosis to pollen maturation by quantitative light and electron microscopy. Plastids are initially undifferentiated, then divide, and at late microspore stage differentiate into amyloplasts containing starch. Later the amyloplasts form lobes and divide. Amyloplasts containing a single starch grain are present from the early bicellular stage. Plastid development is considered in relation to such cytoembryological features as the pollen does not dehydrate at anthesis and germination begins 3 min after pollination.     

Different AT-rich satellite DNAs in Cucurbita pepo and Cucurbita maxima

Summary The AT-rich highly repeated satellite DNA of Cucurbita pepo (zucchini) and Cucurbita maxima (pumpkin) were cloned and their DNA structure was investigated. DNA sequencing revealed that the repeat length of satellite DNA in Cucurbita pepo is 349–352 base pairs. The percentage of AT-base pairs is about 61%. This satellite is highly conserved in restriction enzyme pattern and DNA sequence; sequence heterogeneity is about 10%. In contrast, the satellite DNA of Cucurbita maxima has a repeat length of 168–169 base pairs. This satellite is also rich in AT-base pairs (64%), existing in at least three different variants as revealed by restriction enzyme analysis and DNA sequencing. The sequence heterogeneity between these variants is about 15%. The two satellite DNAs showed no cross-hybridization to each other and sequence homology is only limited. Nevertheless, we found in the C. pepo genome a high amount of sequences resembling the satellite of C. maxima. In contrast, the satellite repeat of C. pepo is found in the C. maxima DNA only in a few copies. These observations were discussed with respect to satellite DNA evolution and compared to the data received from monocotyledonous species.     

Inbreeding influences herbivory in <Emphasis Type="Italic">Cucurbita pepo</Emphasis> ssp. <Emphasis Type="Italic">texana</Emphasis> (Cucurbitaceae)

In a series of field experiments Diabrotica beetle herbivory was found to influence the magnitude of inbreeding depression in Cucurbita pepo ssp. texana, an annual monoecious vine. Beetles damage flowers and fruits and chew dime-sized holes in leaf tissue between major veins. Inbred plants were found to be more likely to be damaged by beetles and to have more leaves damaged per plant than outcrossed plants. A positive linear association was found between the coefficient of inbreeding and the magnitude of leaf damage, whereas a negative association was found between coefficient of inbreeding and several male and female fitness traits. When pesticides were used to control beetle herbivory, the interaction between coefficient of inbreeding and pesticide treatment was significant for fruit production and marginally significant for pollen quantity per anther. Therefore, the magnitude of inbreeding depression in C. pepo ssp . texana varies depending on the severity of beetle herbivory.     

Crop/weed microgametophyte competition in Cucurbita pepo (Cucurbitaceae)

Prior studies of crop/weed gene flow in Cucurbita pepo have demonstrated that pollinators can deposit mixed pollen loads. The fate of microgametophytes emerging from these pollen mixtures is unknown. In an effort to define the relationship between pollen mixture composition and progeny composition, experimental plants representing a zucchini cultivar and a cross-compatible free-living type were genotyped with an isozyme marker and grown under greenhouse conditions. Weighed mixtures of weed/crop pollen were applied to stigmas of both types in differing ratios. Subsequent fertilizations were tracked by an electrophoretic screen of over 1,600 progeny from 39 fruits. Equal mixtures of weed/crop pollen do not produce a corresponding suite of progeny. Pollen of the pistillate parent is favored, and this advantage increases as the proportion of pollen from the pistillate parent increases. However, increasing the proportion of zucchini pollen does not produce a corresponding increase in fertilization success when the free-living type is used as pistillate parent. These results indicate that microgametophyte competition in both domesticated and free-living Cucurbita gynoecia could be a significant component of gene flow dynamics. The nature of this competition can only be defined by experiments that control numerous variables, both paternal and maternal, that might be involved. The tendency for crop/weed hybrids to occur at different portions of the ovary suggests that interactions involving two factors—microgametophyte growth rate and gynoecium structure—might play a significant role.     

Stage-related expression of mRNAs during pollen development in lily and tobacco

Homogeneous populations of developing microspores and pollen from anthers of lily (Lilium longiflorum Thumb.) and tobacco (Nicotiana tabacum L.) show a continuous production of biomass, reaching a maximum in young pollen. The rate of RNA synthesis was 460 fg · h^–1 in young binucleate cells, 138 fg · h^–1 in late binucleate cells and 56 fg · h^–1 in microspores. The mRNA population in developing pollen can be separated into three groups. In the first group, certain types of mRNAs are present at a constant level during all stages of development. A second group is characteristic of young pollen and increases quantitatively until anthesis. A third group is seen transiently; to this belong mRNAs present only before mitosis or at a distinct cell stage after mitosis. Some of the translation products of this latter group of mRNAs showed similarities between lily and tobacco on two-dimensional gels in respect of molecular weight and isolectric point, indicating that those mRNAs and proteins play a role in the regulation of pollen development.Abbreviations cDNA copy DNA - pI isolectric point To whom correspondence should be addressed.     

西瓜花叶病毒诱导对不同抗性美洲南瓜防卫基因表达的影响

为了明确防卫基因PAL与美洲南瓜抗西瓜花叶病毒(watermelon mosaic virus,WMV)之间的关系,通过室内接种和实时荧光定量PCR技术,测定了WMV侵染对不同抗性美洲南瓜体内防卫基因PAL表达的影响。结果表明:(1)室内测定显示,抗病品种GBRV-8发病率和病情指数(15.6%和14.2)显著低于感病品种‘光板’(91.1%和65.9)。(2)实时荧光定量PCR表明,接种WMV后不同抗感品种不同组织部位PAL基因相对表达量随着接种时间增加,整体呈现出先增加后降低的趋势,而且不同组织部位PAL基因相对表达量总体呈现出叶片较高,叶柄和茎秆次之。(3)接种后5个品种不同组织部位PAL基因相对表达量与对照相比均存在显著差异,且抗病和中抗品种不同组织部位PAL基因相对表达量显著高于感病品种,尤其抗病品种GBRV-8不同组织部位PAL基因相对表达量最高,感病品种光板最低。研究认为,防卫基因PAL表达量与美洲南瓜品种抗病毒病强弱密切相关。     

The interrelationship between the accumulation of lipids,protein and the level of acyl carrier protein during the development of Brassica napus L. pollen

Lipid accumulation during pollen and tapetal development was studied using cryostat sections of unfixed anthers from Brassica napus (rapeseed). Diamidino-2-henylindole (DAPI), a DNA fluorochrome, was used to stain the pollen nuclei in order to identify ten stages of pollen development in Brassica. Storage lipids (i.e. triacylglycerides) were stained using the fluorochrome Nile red. Pollen coat lipids are formed in tapetal plastids between the mid-vacuolate and early maturation pollen stages. The pollen coat components, including lipids and a proportion of the proteins, are derived from the remnants of the tapetum, after its rupture, during the second pollen mitosis. Quantitative microfluorometric analyses demonstrated four phases of lipid body accumulation or depletion in the developing pollen cytoplasm. The majority of storage lipids found in the cytoplasm of the mature pollen grain accumulated during the late vacuolate and early maturation stages when the pollen is bicellular. The level of acyl carrier protein, a protein integrally involved in lipid synthesis, was also found to be maximal in the developing pollen during the bicellular pollen stages of development. This coincided with the most active period of lipid accumulation. These data could indicate that the lipids of the pollen are synthesized in situ, by metabolic processes regulated by expression of genes in the haploid genome.To whom correspondence should be addressed     

Characterization and sequencing of cDNA clone encoding the phloem protein PP2 of Cucurbita pepo

Direct N-terminal amino acid sequencing of the phloem protein 2 (PP2) from 3-month old Cucurbita pepo L. (pumpkin), purified by SDS-PAGE and blotted onto PVDF membrane, showed that the protein had a blocked N-terminus. However, after in situ cleavage of the polypeptide in a gel slice by cyanogen bromide, 75 residues of sequence on two cyanogen bromide fragments were determined. An oligonucle-otide probe based on this amino acid sequence was used to screen a cDNA library, constructed from mRNA of 3–5-day old seedling hypocotyls, in ZAP II. A cDNA clone (p11A) predicted an amino acid sequence of 218 residues, in full agreement with the sequences determined for two CNBr fragments of PP2, and suggests that the N-terminus of the protein is a blocked methionine residue which is cleaved off by CNBr. Two additional cDNA clones were sequenced but no heterogeneity in the PP2 sequence was found. The deduced amino acid sequence of C. pepo differs in nine residues from the recently published sequence of Cucurbita maxima (Bostwick et al., Plant Cell 4 (1992) 1539–1548). Southern blot showed that PP2 is encoded by a gene family with a relatively large number of members (estimated as 7–15 per haploid genome).     

Flavonols are not essential for fertilization in Arabidopsis thaliana

Flavonols are plant metabolites suggested to serve a vital role in fertilization of higher plants. Petunia and maize plants mutated in their flavonol biosynthesis are not able to set seed after self-pollination. We have investigated the role of these compounds in Arabidopsis thaliana. Like in all other plant species, high levels of flavonols could be detected in pollen of wild-type A. thaliana. No flavonols were detected in reproductive organs of the A. thaliana tt4 mutant in which the chs gene is mutated. Surprisingly, this mutant did set seed after self-fertilization and no pollen tube growth aberrations were observed in vivo. The role of flavonols during fertilization of Arabidopsis is discussed.Abbreviations CHS chalcone synthase - TLC thin-layer chromatography     

An endogenous RNA-synthesis-promoting oligopeptide from Cucurbita pepto var. patissonina

The effect of CPPTI (Cucurbita pepo patissonina trypsin inhibitor) on the growth of Cucurbita pepo var patissonina (White bush) was examined. Plants treated with CPPTI grew faster than untreated plants and similarly to those treated with gibberellic acid. Isolated cell nuclei from plants treated with CPPTI showed that of the three DNA-dependent RNA polymerases assayed, RNA polymerase I (EC2.7.7.6) activity was preferentially elevated.Abbreviations CPPTI Cucurbita pepo patissonina trypsin inhibitor - GA₃ gibberellic acid - IAA indole-3-acetic acid - kDa kilodalton - RP I DNA-dependent RNA polymerase I     

Heat shock pre-treatment enhances the response of Arabidopsis thaliana leaves and Cucurbita pepo cotyledons to benzyladenine

The effects of heat shock (HS) pre-treatment on the response tobenzyladenine were studied in two plant model systems (1) retardation ofsenescence of Arabidopsis thaliana L. Heyhn rosette leavesand (2) induction of greening of detached Cucurbita pepoL.cotyledons. N⁶-benzyladenine (BA) retarded senescence of rosetteleaves of Arabidopsis thaliana (L) Heyhn and briefpre-treatment with HS (3 at 37)essentially enhanced this cytokinin effect. BA stimulated cotyledon greening inCucurbita pepo L due to the activation of chlorophyllsynthesis. Brief cotyledon pre-heating at moderate temperatures (3 at 33–35) also enhanced thiscytokinin effect.     

A plant lipid and the platelet-activating factor stimulate ATP-dependent H+ transport in isolated plant membrane vesicles

A plant lipid was isolated from zucchini (Cucurbita pepo L.) membranes and from soybean (Glycine max [L.] Merr) phospholipids by thinlayer chromatography and further purified by high-performance liquid chromatography. This plant lipid was chromatographically very similar to the platelet-activating factor, an ether phospho-lipid with hormone-like properties found in mammals. Both the plant lipid and the platelet-activating factor stimulated ATP-dependent H⁺ transport in isolated membrane vesicles from zucchini hypocotyls.Abbreviations HPLC high-performance liquid chromatography - PAF platelet-activating factor     

Effect of relative humidity on water content, viability and carbohydrate profile of Petunia hybrida and Cucurbita pepo pollen

Petunia hybrida and Cucurbita pepo pollen was exposed to 30 and 75% relative humidity (RH). Water content, viability and carbohydrate content (glucose, fructose, sucrose and starch) were measured at fixed intervals over 6 h. Water content of C. pepo pollen decreased drastically at both RHs, while P. hybrida pollen dehydrated slightly at RH 30% and hydrated at RH 75%. The pollen of the two species also showed very different sensitivity to dehydration. P. hybrida pollen was resistant to desiccation, with viability remaining around 80% throughout the experiment, whereas C. pepo was very sensitive to desiccation, showing an abrupt decrease in viability when its water content reached about 13% (fresh weight basis) at both RHs. Carbohydrate content was also different in the two species. Sucrose content increased soon after dehydration of P. hybrida pollen at RH 30%, whereas it remained almost constant in C. pepo pollen at the same RH. The results are discussed in the framework of basic pollen physiology and of plant reproductive strategy.