Current Plant Biology (Jan 2021)
Identification of microRNAs in response to low potassium stress in the shoots of Tibetan wild barley and cultivated
Abstract
Potassium (K) deficiency in soil has become a global problem in agricultural production, seriously restricting crop production and agricultural sustainable development. Identification of the microRNAs associated with K use efficiency and understanding their functions in response to low K stress will be helpful for developing crop varieties with low K tolerance. Our previous study identified a low K tolerant accession, XZ153 from Tibetan wild barley. In this study, small RNA and degradome analysis were performed on two barley genotypes differing in low K tolerance (XZ153, tolerant; ZD9, sensitive) to identify the miRNAs and their targets responding to low K stress. A total of 1108 miRNAs were detected in shoots of XZ153, and ZD9 at 2 d and 7 d after low K stress, and their targets were identified through bioinformatics prediction and degradome analysis. Totally 65 differentially expressed miRNAs responding to low K stress were identified. The results showed that miR164c, miR169 h and miR395a modules could mediate TCA cycle, glycolysis pathway and pentose phosphate pathway responding to low K stress. The osa-miR166g-3p and ghr-miR482b may act as the regulators in Ca2+ signaling pathway in response to low K stress. The methionine salvage cycle involved in ethylene biosynthesis process, mediated by miR396c-3p and osa-miR171e-5p, might be also involved in responding to low K stress. Some miRNAs, including miR160a, miR396c and miR169 h, which participated in photosynthesis regulation under low K stress, differed between the two barley genotypes. In conclusion, these exclusively expressed miRNAs and their targets might play the crucial roles in low K tolerance.
