The OsmiR396–OsGRF8–OsF3H‐flavonoid pathway mediates resistance to the brown planthopper in rice (Oryza sativa)

The OsmiR396–OsGRF8–OsF3H‐flavonoid pathway mediates resistance to the brown planthopper in rice (Oryza sativa)

Summary Multi‐functional microRNAs (miRNAs) are emerging as key modulators of plant–pathogen interactions. Although the involvement of some miRNAs in plant–insect interactions has been revealed, the underlying mechanisms are still elusive. The brown planthopper (BPH) is the most notorious rice (Oryz...

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Published in:Plant biotechnology journal Vol. 17; no. 8; pp. 1657 - 1669
Main Authors: Dai, Zhengyan, Tan, Jiang, Zhou, Cong, Yang, Xiaofang, Yang, Fang, Zhang, Shijuan, Sun, Shichen, Miao, Xuexia, Shi, Zhenying
Format: Journal Article
Language:English
Published: England John Wiley & Sons, Inc 01-08-2019
John Wiley and Sons Inc
Subjects:
Analysis
Animals
Bioflavonoids
Biological control
Breeding
brown planthopper
Correlation analysis
Deoxyribonucleic acid
DNA
Down-Regulation
Flavones
flavonoid
Flavonoids
Functional analysis
Gene expression
Genetic analysis
Genetic research
Hemiptera
Herbivory
Hydroxylase
Insects
Leaves
MicroRNA
MicroRNAs
MicroRNAs - genetics
Mimicry
miRNA
Modulators
Oryza
Oryza - genetics
Oryza sativa
OsF3H
OsmiR396
Pest resistance
Pests
Plants
Resistance factors
Rice
rice (Oryza sativa)
Sequestering
China
brown planthopper
OsF3H
OsmiR396
rice (Oryza sativa)
flavonoid
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Summary:Summary Multi‐functional microRNAs (miRNAs) are emerging as key modulators of plant–pathogen interactions. Although the involvement of some miRNAs in plant–insect interactions has been revealed, the underlying mechanisms are still elusive. The brown planthopper (BPH) is the most notorious rice (Oryza sativa)‐specific insect that causes severe yield losses each year and requires urgent biological control. To reveal the miRNAs involved in rice–BPH interactions, we performed miRNA sequencing and identified BPH‐responsive OsmiR396. Sequestering OsmiR396 by overexpressing target mimicry (MIM396) in three genetic backgrounds indicated that OsmiR396 negatively regulated BPH resistance. Overexpression of one BPH‐responsive target gene of OsmiR396, growth regulating factor 8 (OsGRF8), showed resistance to BPH. Furthermore, the flavonoid contents increased in both the OsmiR396‐sequestered and the OsGRF8 overexpressing plants. By analysing 39 natural rice varieties, the elevated flavonoid contents were found to correlate with enhanced BPH resistance. Artificial applications of flavonoids to wild type (WT) plants also increased resistance to BPH. A BPH‐responsive flavanone 3‐hydroxylase (OsF3H) gene in the flavonoid biosynthetic pathway was proved to be directly regulated by OsGRF8. A genetic functional analysis of OsF3H revealed its positive role in mediating both the flavonoid contents and BPH resistance. And analysis of the genetic correlation between OsmiR396 and OsF3H showed that down‐regulation of OsF3H complemented the BPH resistance characteristic and simultaneously decreased the flavonoid contents of the MIM396 plants. Thus, we revealed a new BPH resistance mechanism mediated by the OsmiR396–OsGRF8–OsF3H–flavonoid pathway. Our study suggests potential applications of miRNAs in BPH resistance breeding.
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These authors contributed equally to this work.
ISSN:1467-7644
1467-7652
DOI:10.1111/pbi.13091