Abstract
BackgroundGenetic male sterility (GMS) in cotton (Gossypium hirsutum) plays an important role in the utilization of hybrid vigor. However, the molecular mechanism of the GMS is still unclear. While numerous studies have demonstrated that microRNAs (miRNA) regulate flower and anther development, whether different small RNA regulations exist in GMS and its wild type is unclear. A deep sequencing approach was used to investigate the global expression and complexity of small RNAs during cotton anther development in this study.ResultsThree small RNA libraries were constructed from the anthers of three development stages each from fertile wild type (WT) and its GMS mutant cotton, resulting in nearly 80 million sequence reads. The total number of miRNAs and short interfering RNAs in the three WT libraries was significantly greater than that in the corresponding three mutant libraries. Sixteen conserved miRNA families were identified, four of which comprised the vast majority of the expressed miRNAs during anther development. In addition, six conserved miRNA families were significantly differentially expressed during anther development between the GMS mutant and its WT.ConclusionsThe present study is the first to deep sequence the small RNA population in G. hirsutum GMS mutant and its WT anthers. Our results reveal that the small RNA regulations in cotton GMS mutant anther development are distinct from those of the WT. Further results indicated that the differently expressed miRNAs regulated transcripts that were distinctly involved in anther development. Identification of a different set of miRNAs between the cotton GMS mutant and its WT will facilitate our understanding of the molecular mechanisms for male sterility.
Highlights
Genetic male sterility (GMS) in cotton (Gossypium hirsutum) plays an important role in the utilization of hybrid vigor
Phenotypic analysis of impaired anthers in the cotton male-sterile mutant To determine the morphological defects of the cotton GMS mutant, we compared the anthers of the mutant and its fertile wild type (WT)
Distribution of small RNAs during cotton anther development Based on previous studies that the peak of male sterility mainly occurs in the uninucleate microspore stage of anthers in ‘Dong A’ GMS mutant [26], early anther development stages were chosen to identify possible miRNAs that may be involved in events leading to male sterility
Summary
Genetic male sterility (GMS) in cotton (Gossypium hirsutum) plays an important role in the utilization of hybrid vigor. While numerous studies have demonstrated that microRNAs (miRNA) regulate flower and anther development, whether different small RNA regulations exist in GMS and its wild type is unclear. Two major male sterile systems are used to produce hybrid seeds, namely cytoplasmic male sterility (CMS) and genetic male sterility (GMS). Both systems have a maternally (former) or nuclear (later) inherited trait that renders them inability to produce or release functional pollen, so they can be used. Very few studies have been on the relationship between male sterility and protein non-coding genes
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