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Osa‐miR164a targets OsNAC60 and negatively regulates rice immunity against the blast fungus Magnaporthe oryzae.

Authors :
Wang, Zhaoyun
Xia, Yeqiang
Lin, Siyuan
Wang, Yanru
Guo, Baohuan
Song, Xiaoning
Ding, Shaochen
Zheng, Liyu
Feng, Ruiying
Chen, Shulin
Bao, Yalin
Sheng, Cong
Zhang, Xin
Wu, Jianguo
Niu, Dongdong
Jin, Hailing
Zhao, Hongwei
Source :
Plant Journal; Aug2018, Vol. 95 Issue 4, p584-597, 14p
Publication Year :
2018

Abstract

Summary: Exploring the regulatory mechanism played by endogenous rice miRNAs in defense responses against the blast disease is of great significance in both resistant variety breeding and disease control management. We identified rice defense‐related miRNAs by comparing rice miRNA expression patterns before and after Magnaporthe oryzae strain Guy11 infection. We discovered that osa‐miR164a expression reduced upon Guy11 infection at both early and late stages, which was perfectly associated with the induced expression of its target gene, OsNAC60. OsNAC60 encodes a transcription factor, over‐expression of which enhanced defense responses, such as increased programmed cell death, greater ion leakage, more reactive oxygen species accumulation and callose deposition, and upregulation of defense‐related genes. By using transgenic rice over‐expressing osa‐miR164a, and a transposon insertion mutant of OsNAC60, we showed that when the miR164a/OsNAC60 regulatory module was dysfunctional, rice developed significant susceptibility to Guy11 infection. The co‐expression of OsNAC60 and osa‐miR164a abolished the OsNAC60 activity, but not its synonymous mutant. We further validated that this regulatory module is conserved in plant resistance to multiple plant diseases, such as the rice sheath blight, tomato late blight, and soybean root and stem rot diseases. Our results demonstrate that the miR164a/OsNAC60 regulatory module manipulates rice defense responses to M. oryzae infection. This discovery is of great potential for resistant variety breeding and disease control to a broad spectrum of pathogens in the future. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09607412
Volume :
95
Issue :
4
Database :
Complementary Index
Journal :
Plant Journal
Publication Type :
Academic Journal
Accession number :
131052427
Full Text :
https://doi.org/10.1111/tpj.13972