Abstract
microRNAs (miRNAs) are a class of newly identified, noncoding, small RNA molecules that negatively regulate gene expression. Many miRNAs are reportedly involved in plant growth, development and stress response processes. However, their roles in the sexual reproduction mechanisms in flowering plants remain unknown. Pollen development is an important process in the life cycle of a flowering plant, and it is closely related to the yield and quality of crop seeds. This study aimed to identify miRNAs involved in pollen development. A microarray assay was conducted using the known complementary sequences of plant miRNAs as probes on inflorescences of a sterile male line (Bcajh97-01A) and a fertile male line (Bcajh97-01B) of the Brassica campestris ssp. chinensis cv. ‘Aijiaohuang’ genic male sterility sister line system (Bcajh97-01A/B). The results showed that 44 miRNAs were differently expressed in the two lines. Of these, 15 had over 1.5-fold changes in their transcript levels, with 9 upregulated and 6 downregulated miRNAs in inflorescences of ‘Bcajh97-01A’ sterile line plants. We then focused on 3 of these 15 miRNAs (miR158, miR168 and miR172). Through computational methods, 13 family members were predicted for these 3 miRNAs and 22 genes were predicted to be their candidate target genes. By using 5’ modified RACE, 2 target genes of miR168 and 5 target genes of miR172 were identified. Then, qRT-PCR was applied to verify the existence and expression patterns of the 3 miRNAs in the flower buds at five developmental stages. The results were generally consistent with those of the microarray. Thus, this study may give a valuable clue for further exploring the miRNA group that may function during pollen development.Electronic Supplementary MaterialSupplementary material is available for this article at 10.2478/s11658-013-0097-9 and is accessible for authorized users.
Highlights
The correct temporal and spatial expression of the full set of genes in cells allows normal plant growth and development
Using 454 sequencing technology, 33 known miRNAs have been identified in A. thaliana mature pollen, and quantitative RT-PCR analysis has revealed that 17 miRNAs are more abundant in the pollen than in the leaves [16]. miRNA expression profiles have been analyzed in A. thaliana pollen and inflorescences using miRNA array assays, and the profiles show 26 miRNAs that are differently expressed in the two materials
Diverse miRNAs exist in pollen This study aimed to identify potential miRNAs involved in pollen development in Brassica campestris ssp. chinensis
Summary
The correct temporal and spatial expression of the full set of genes in cells allows normal plant growth and development. It remains unclear how cells control gene expression in different tissues at different times. Scientists have been attempting to elucidate the regulatory mechanisms of gene expression, and one of the most crucial discoveries in recent decades is that of microRNAs (miRNAs) [1]. These are ~22-nucleotide (nt), noncoding, small regulatory RNA molecules that are widely present in plants and animals. An important Cruciferous species, is an economically important vegetable crop that exhibits
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