AUTHOR=Li Yan , Wang Liang-Fang , Bhutto Sadam Hussain , He Xiao-Rong , Yang Xue-Mei , Zhou Xin-Hui , Lin Xiao-Yu , Rajput Aisha Anum , Li Guo-Bang , Zhao Jing-Hao , Zhou Shi-Xin , Ji Yun-Peng , Pu Mei , Wang He , Zhao Zhi-Xue , Huang Yan-Yan , Zhang Ji-Wei , Qin Peng , Fan Jing , Wang Wen-Ming 

TITLE=Blocking miR530 Improves Rice Resistance, Yield, and Maturity

JOURNAL=Frontiers in Plant Science

VOLUME=12

YEAR=2021

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2021.729560

DOI=10.3389/fpls.2021.729560

ISSN=1664-462X

ABSTRACT=<p>MicroRNAs fine-tune plant growth and resistance against multiple biotic and abiotic stresses. The trade-off between biomass and resistance can penalize crop yield. In this study, we have shown that rice miR530 regulates blast disease resistance, yield, and growth period. While the overexpression of miR530 results in compromised blast disease resistance, reduced grain yield, and late maturity, blocking miR530 using a target mimic (MIM530) leads to enhanced resistance, increased grain yield, and early maturity. Further study revealed that the accumulation of miR530 was decreased in both leaves and panicles along with the increase of age. Such expression patterns were accordant with the enhanced resistance from seedlings to adult plants, and the grain development from panicle formation to fully-filled seeds. Divergence analysis of miR530 precursor with upstream 1,000-bp promoter sequence in 11 rice species revealed that miR530 was diverse in <italic>Oryza sativa japonica</italic> and <italic>O. sativa indica</italic> group, which was consistent with the different accumulation of miR530 in <italic>japonica</italic> accessions and <italic>indica</italic> accessions. Altogether, our results indicate that miR530 coordinates rice resistance, yield, and maturity, thus providing a potential regulatory module for breeding programs aiming to improve yield and disease resistance.</p>