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.     

Epidermal jasmonate perception is sufficient for all aspects of jasmonate‐mediated male fertility in Arabidopsis

Jasmonate (JA) signaling is essential for several environmental responses and reproductive development in many plant species. In Arabidopsis thaliana, the most obvious phenotype of JA biosynthetic and perception mutants is profound sporophytic male sterility characterized by failure of stamen filament elongation, severe delay of anther dehiscence and pollen inviability. The site of action of JA in the context of reproductive development has been discussed, but the ideas have not been tested experimentally. To this end we used targeted expression of a COI1‐YFP transgene in the coi1‐1 mutant background. As COI1 is an essential component of the JA co‐receptor complex, the null coi1‐1 mutant is male sterile due to lack of JA perception. We show that expression of COI1‐YFP in the epidermis of the stamen filament and anther in coi1 mutant plants is sufficient to rescue filament elongation, anther dehiscence and pollen viability. In contrast, filament expression alone or expression in the tapetum do not restore dehiscence and pollen viability. These results demonstrate that epidermal JA perception is sufficient for anther function and pollen viability, and suggest the presence of a JA‐dependent non‐autonomous signal produced in the anther epidermis to synchronize both anther dehiscence and pollen maturation.     

Identification and preliminary analysis of a new PCP promoter from Brassica rapa ssp. chinensis

The promoter of Brassica campestris Male Fertile 5 (BcMF5), a pollen coat protein member, class A (PCP-A) gene family, was isolated from Brassica rapa L. ssp. chinensis Makino (Chinese cabbage-pak-choi) by Thermal Asymmetric Interlaced Polymerase Chain Reaction (TAIL-PCR). Sequence analysis suggested that the 605-bp promoter of BcMF5 appears to be a pollen promoter. In an attempt to confirm the promoter activity of BcMF5 promoter, −609 to +3 bp and −377 to +3 bp fragments of the upstream sequence of BcMF5 were inserted at the site upstream of the coding region of the uidA gene in the sense orientation to construct two deletion expression vectors. Transient expression analysis in onion epidermal cells by particle bombardment showed that both −609 to +3 bp and −377 to +3 bp fragments of BcMF5 promoter were capable of driving β-glucuronidase gene expression. Furthermore, by Agrobacterium-mediated genetic transformation method, Arabidopsis transgenic Kan^R plants were obtained. GUS assay analysis revealed that the promoter of BcMF5 induced gene expression at the early stage of anther development and drove high levels of GUS expression in anther walls, upper regions of petals, pollen, and pollen tubes in the middle and late stage of anther development, but did not drive any expression in sepals and pistils.     

Gene expression pattern at desiccation in the anther of <Emphasis Type="Italic">Lilium longiflorum</Emphasis>

Although gene expression profile of pollen has been described, there is limited information regarding a particular phase during anther/pollen development. This work characterizes gene expression pattern at desiccation in lily (Lilium longiflorum Thunb. cv Snow Queen) anthers. We have applied a suppression-subtractive hybridization (SSH) strategy, through which 90 clones were identified and sequenced. These clones resulted in the identification of 42 individual cDNAs among which 33 genes were specifically expressed at the desiccation phase of anthers of >150-mm buds. Fourteen cDNAs were chosen for further examination. Six genes were both dehydration- and abscisic acid (ABA)-inducible whereas the other eight genes were apparently dehydration-irrelevant. The group of dehydration- and ABA-induced genes was also induced by desiccation that developmentally occurs in the anther. The application of fluridone has a significant effect of inhibition on mRNA accumulation of these genes in maturing anthers during which desiccation occurs. Pollen germination analysis indicated that, of those dehydration-irrelevant genes, three were ABA-responsive and the other five were not. Thus, three separate signal pathways that function in the activation of late genes at desiccation during anther development are established. The first is the ABA-dependent pathway induced by environmental stress of dehydration. The other two pathways of signaling triggered by developmental cues, through which one is ABA-dependent and another is ABA-independent. The 14 gene proteins showed spatial and temporal expression patterns and may participate in membrane/cell wall synthesis, cytoskeletal organization, signaling, RNA binding, ubiquitin-mediated degradation and transportation during germination and tube growth. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.