Dendrobium officinale (D. officinale) is a widely used traditional Chinese medicine with high economic value. MicroR159 (miR159) is an ancient and conserved microRNA (miRNA) family in land plants, playing roles in the progress of growth and development, as well as the stress response. In order to find out functions of miR159 in D. officinale, multiple bioinformatic approaches were employed and 10 MIR159 genes were found, localizing on seven chromosomes and an unanchored segment of the D. officinale genome. All of the precursor sequences of Dof-miR159 could form a stable stem-loop structure. The phylogenetic analysis revealed that the MIR159 genes of D. officinale were divided into five clades. Furthermore, the conservation analysis suggested that the 2 to 20 nt region of miR159 mature sequences were highly conserved among family members. The promoter analysis of MIR159s showed that the majority of the predicted cis-elements were related to environmental stress or hormones. In total, five classes of genes were predicted to be the target genes of Dof-miR159s, including GAMYB transcription factors, which had been confirmed in many other land plants. The expression patterns of predicted target genes revealed their potential roles in the growth and development of D. officinale, as well as in cold and drought stress responses. In conclusion, our results illustrated the stress-related miR159-targeted genes in D. officinale, which could provide candidate genes for resistance breeding in the future.
Keywords: Dendrobium officinale; bioinformatics; miR159; predicted target genes; stress response.