BcMF9, a novel polygalacturonase gene, is required for both Brassica campestris intine and exine formation

Background and Aims

The polygalacturonase (PG) gene family has been found to be enriched in pollen of several species; however, little is currently known about the function of the PG gene in pollen development. To investigate the exact role that the PG gene has played in pollen development and about this family in general, one putative PG gene, Brassica campestris Male Fertility 9 (BcMF9), was isolated from Chinese cabbage (Brassica campestris ssp. chinensis, syn. B. rapa ssp. chinensis) and characterized.

Methods

RT-PCR, northern blotting and in situ hybridization were used to analyse the expression pattern of BcMF9, and antisense RNA technology was applied to study the function of this gene.

Key Results

BcMF9 is expressed in particular in the tapetum and microspore during the late stages of pollen development. Antisense RNA transgenic plants that displayed decreased expression of BcMF9 showed pollen morphological defects that resulted in reduced pollen germination efficiency. Transmission electron microscopy revealed that the homogeneous pectic exintine layer of pollen facing the exterior was over-developed and predominantly occupied the intine, reversing the normal proportional distribution of the internal endintine layer and the external exintine in transgenic pollen. Inhibition of BcMF9 also resulted in break-up of the previously formed tectum and baculae from the beginning of the binucleate stage, as a result of premature degradation of tapetum.

Conclusions

Several lines of evidence, including patterns of BcMF9 expression and phenotypic defects, suggest a sporophytic role in exine patterning, and a gametophytic mode of action of BcMF9 in intine formation. BcMF9 might act as a co-ordinator in the late stages of tapetum degeneration, and subsequently in the regulation of wall material secretion and, in turn, exine formation. BcMF9 might also play a role in intine formation, possibly via regulation of the dynamic metabolism of pectin.Key words: Brassica campestris, Chinese cabbage, exine, intine, PG, pollen wall, polygalacturonase, BcMF9     

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.     

The polygalacturonase gene BcMF2 from Brassica campestris is associated with intine development

Brassica campestris Male Fertility 2 (BcMF2) is a putative polygalacturonase(PG) gene previously isolated from the flower bud of Chinesecabbage (Brassica campestris L. ssp. chinensis Makino, syn.B. rapa ssp. chinensis). This gene was found to be expressedspecifically in tapetum and pollen after the tetrad stage ofanther development. Antisense RNA technology was used to studythe function of BcMF2 in Chinese cabbage. Scanning and transmissionelectron microscopy revealed that there were deformities inthe transgenic mature pollen grains such as abnormal locationof germinal furrows. In addition, the homogeneous pectic exintinelayer facing the exterior seemed to be overdeveloped and predominantlyoccupied the intine, thus reversing the normal proportionaldistribution of the internal endintine layer and the externalexintine layer. Since it is a continuation of the intine layer,the pollen tube wall could not grow normally. This resultedin the formation of a balloon-like swelling structure in thepollen tube tip in nearly 80% of the transgenic pollen grains.Premature degradation of tapetum was also found in these transgenicplants, which displayed decreased expression of the BcMF2 gene.BcMF2 might therefore encode a new PG with an important rolein pollen wall development, possibly via regulation of pectin'sdynamic metabolism. Key words: Brassica campestris, Brassica rapa, Chinese cabbage, intine, PG, polygalacturonase, pollen wall Received 28 August 2008; Revised 14 October 2008 Accepted 20 October 2008     

BcMF21 is important for pollen development and germination in Brassica campestris ssp. chinensis

Brassica campestris Male Fertility 21 (BcMF21) was previously isolated from the flower buds of Chinese cabbage (Brassica campestris L. ssp. chinensis Makino, syn. B. rapa ssp. chinensis) and expressed specifically in tapetum and microspores during the meiosis stage and the uninucleate stage of microspore development. Here, we used antisense RNA technology to knock down the expression level of BcMF21 in B. campestris and analyzed the phenotype of the transgenic plants. Alexander staining and scanning electron microscope revealed sterility and exine deformities in the mature pollen grains of BcMF21 antisense RNA transgenic plants. The germination furrow of the BcMF21 antisense RNA transgenic pollen was covered by lipid like materials. The pollen tubes burst and could not grow normally in vitro. Therefore, we presented here BcMF21 might be an important gene for pollen development and germination.     

Characterization and functional analysis of a novel PCP gene BcMF5 from Chinese cabbage (Brassica campestris L. ssp. chinensis Makino)

Brassica campestris Male Fertile 5 (BcMF5), a novel member of the pollen coat protein class A (PCP-A) gene family, was identified from Brassica campestris L. ssp. chinensis Makino (Chinese cabbage-pak-choi). Temporal and spatial expression analysis showed that BcMF5 is a late-expressed PCP gene related to the process of determining pollen fertility. Functional analysis by hairpin RNA (hpRNA)-mediated RNA interference also showed that the expression of BcMF5 is inhibited, which resulted in the low germination ability of the pollen and also in an abnormality of the pollen exemplified by a collapsed germination furrow. This demonstrates that the expression of BcMF5 is closely related to the tapetum. Further, the expression profile of the BcMF5 promoter in Arabidopsis was also analyzed. This analysis indicated that the BcMF5 promoter began expression in the early stage of anther development and drove high levels of glucuronidase (GUS) expression in anthers, pollen, and the pollen tube in the late stage of pollen development, but did not drive any expression in petals, sepals, or pistils. Together with the functional analysis, the hypothesis that BcMF5 may have a sporophytic or gametophytic expression pattern is presented.     

Isolation and Characterization of an Anther-Specific Polygalacturonase Gene, BcMF16, in Brassica campestris ssp. chinensis

Many genes in the genic male sterile A/B line (Bajh97-01A/B) of Chinese cabbage pak choi (Brassica campestris L. subsp. chinensis Makino) are expressed differentially, and some play critical roles in the formation of pollen walls. In this study, one of these genes, Brassica campestris Male Fertility 16 (BcMF16), has been isolated and characterized. The BcMF16 gene shares approximately 85% nucleotide sequence homology with two exopolygalacturonase (EC3.2.1.67) genes of Arabidopsis thaliana. Cluster analysis of polygalacturonase peptides indicate that BcMF16 belongs to the pollen polygalacturonase clade. Quantitative real-time PCR analysis has revealed that BcMF16 is specifically expressed in reproductive tissues of the fertile line of genic male sterile A/B line of Chinese cabbage pak choi, and that expression levels dramatically increased during later stages of pollen development. In situ hybridization has demonstrated that BcMF16 is specifically and transiently expressed in both tapetum and pollen following microspore separation at the tetrad stage.     

Heat stress differentially modifies ethylene biosynthesis and signaling in pea floral and fruit tissues

Key message

We identified and cloned the two precursors of miR158 and its target gene in Brassica campestris ssp. chinensis, which both had high relative expression in the inflorescences. Further study revealed that over-expression of miR158 caused reduced pollen varbility, which was caused by the degradation of pollen contents from the binucleate microspore stage. These results first suggest the role of miR158 in pollen development of Brassica campestris ssp. chinensis.

Abstract

MicroRNAs (miRNAs) play crucial roles in many important growth and development processes both in plants and animals by regulating the expression of their target genes via mRNA cleavage or translational repression. In this study, miR158, a Brassicaceae specific miRNA, was functionally characterized with regard to its role in pollen development of non-heading Chinese cabbage (Brassica campestris ssp. chinensis). Two family members of miR158 in B. campestris, namely bra-miR158a1 and bra-miR158a2, and their target gene bra027656, which encodes a pentatricopeptide repeat (PPR) containing protein, were identified. Then, qRT-PCR analysis and GUS-reporter system revealed that both bra-miR158 and its target gene had relatively high expression levels in the inflorescences. Further study revealed that over-expression of miR158 caused reduced pollen varbility and pollen germination ratio, and the degradation of pollen contents from the binucleate microspore stage was also found in those deformed pollen grains, which led to pollen shrinking and collapse in later pollen development stage. These results first shed light on the importance of miR158 in pollen development of Brassica campestris ssp. chinensis.

     

Characterization and Expression Pattern of a Putative Pectin Methylesterase Gene, <Emphasis Type="Italic">BcMF27</Emphasis>, in <Emphasis Type="Italic">Brassica campestris</Emphasis> ssp. <Emphasis Type="Italic">chinensis</Emphasis>

Pectin methylesterases (PMEs) play an important role in modifying cell wall. PMEs catalyze the de-esterification of pectin, an important compound of cell wall, to affect fertility in plant reproduction. However, little especially molecular mechanism about pectin methylesterase is studied in recent years despite its importance to reproductive development in flower plant. Here the bioinformatics analysis of BcMF27 (Brassica campestris Male Fertility 27) (BRAD: Bra000541 GenBank: KT600012) sequence isolated from Brassica campestris L. ssp. chinensis showed its highly and characteristically conserved structure as a pectin methylesterase. Transient expression analysis in the onion epidermal cells revealed the product of BcMF27 was a transmembrane protein. Real-time RT-PCR and in situ hybridization suggested that BcMF27 was expressed in pollen grain and pollen tube. This study demonstrates that BcMF27 encodes a transmembrane pollen- and pollen tube-specific PME gene, and is also considered to help further understand the biological function of pectin methylesterases and the molecular mechanism of pollen development, pollen tube growth as a genic tool.     

Morphological and functional characterization of BcMF13 in the antisense-silenced plants of Brassica campestris ssp. chinensis var. parachinensis

The gene Brassica campestris male fertility 13 (BcMF13, GenBank accession number EF158459) was isolated as a reproductive organ-specific gene from Chinese cabbage (Brassica campestris L. ssp. chinensis Makino, syn. B. rapa ssp. chinensis). It is exclusively expressed in stage four and five flower buds of fertile lines and is most strongly expressed in stamens. Here, we report a functional characterization of this BcMF13 gene in the antisense-silenced plants. The inflorescence of the BcMF13 mutant was compacted with anthers curved outside. The fertility of this mutant was greatly reduced with less than 5 seeds per silique. Under scanning electron microscopy, the mutant demonstrated numerous shriveled pollen grains with deep invaginations. The frequency of normal pollen grains was just 45.34%. The pollen mother cell, the tetrad, and the mature pollen of the BcMF13 mutant were abnormal resulting in the poor pollen vitality. Germination test in vivo suggested BcMF13 delayed the pollen tubes’ extension in the style. All these indicated BcMF13 had a vital role in pollen development of Chinese cabbage.     

A polygalacturonase inhibitory protein gene (<Emphasis Type="Italic">BcMF19</Emphasis>) expressed during pollen development in Chinese cabbage-pak-choi

The level of polygalacturonase inhibitory protein (PGIP) genes involved in pollen development remains unclear. Characterization of the different PGIP genes that are expressed in pollen is necessary in understanding the similarities and differences of functions between the members of this gene family, as well as the underlying mechanism of pollen development. A gene-encoding putative PGIP, BcMF19 was successfully cloned on a cDNA-amplified fragment length polymorphism fragment after it was found to be up-regulated in the fertile flower buds of Chinese cabbage-pak-choi (Brassica campestris L. ssp. chinensis Makino) genic male sterile AB line (Bajh97-01A/B). The amino acid sequence of BcMF19 possessed the basic feature of PGIPs, containing an N-terminal signal peptide, several potential N-glycosylation sites, two disulfide bridges flanking both the N- and C-terminal regions, and 10 leucine-rich repeat (LRR) consensus sequences. Real-time RT-PCR verified the higher expression of BcMF19 in the fertile flower buds compared to the sterile flower buds. In situ hybridization showed that BcMF19 was exclusively expressed in the tapetal cells and microspores during anther development. These results indicate that BcMF19 is a novel PGIP gene that might be involved in pollen or tapetum development.