AUTHOR=Zhang Ling-Li , Li Yan , Zheng Ya-Ping , Wang He , Yang Xuemei , Chen Jin-Feng , Zhou Shi-Xin , Wang Liang-Fang , Li Xu-Pu , Ma Xiao-Chun , Zhao Ji-Qun , Pu Mei , Feng Hui , Fan Jing , Zhang Ji-Wei , Huang Yan-Yan , Wang Wen-Ming 

TITLE=Expressing a Target Mimic of miR156fhl-3p Enhances Rice Blast Disease Resistance Without Yield Penalty by Improving SPL14 Expression

JOURNAL=Frontiers in Genetics

VOLUME=11

YEAR=2020

URL=https://www.frontiersin.org/journals/genetics/articles/10.3389/fgene.2020.00327

DOI=10.3389/fgene.2020.00327

ISSN=1664-8021

ABSTRACT=<p>MicroRNAs (miRNAs) play essential roles in the regulation of plant growth and defense responses. More and more, miRNA-3ps are reported to act in plant development and immunity. miR156 is a conserved miRNA, and most previous studies focus on its roles in plant growth, development, and yield determinacy. Here, we show that expressing a target mimic of miR156fhl-3p led to enhanced rice blast disease resistance without a yield penalty. miR156fhl-3p was differentially responsive to <italic>Magnaporthe oryzae</italic> in susceptible and resistant accessions. Transgenic lines expressing a target mimic of miR156fhl-3p (MIM156-3p) exhibited enhanced rice blast disease resistance and increased expression of defense-related genes. MIM156-3p also enhanced the mRNA abundance of <italic>SPL14</italic> and <italic>WRKY45</italic> by down-regulating miR156-5p and pre-miR156. Moreover, MIM156-3p lines displayed a decreased number of second rachis branches per panicle but enlarged grains, leading to unchanged yield per plant. Consistently, overexpressing miR156h (OX156) led to enhanced susceptibility to <italic>M. oryzae</italic> and decreased the expression of <italic>SPL14</italic> and <italic>WRKY45</italic>. Our results indicate that miR156fhl-3p mounts a regulatory role on miR156-5p, which subsequently regulates the expression of <italic>SPL14</italic> and <italic>WRKY45</italic> to improve rice blast disease resistance.</p>