Bacillus cereus NJ01 induces SA- and ABA-mediated immunity against bacterial pathogens through the EDS1-WRKY18 module Article Swipe

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Bacillus cereus Rhizobacteria Biology Abscisic acid Cereus Microbiology Arabidopsis Transcriptome Salicylic acid Gene Bacteria Gene expression Genetics Mutant Rhizosphere

Dacheng Wang , Lirong Wei , Jinbiao Ma , Yingqiao Wan , Keyi Huang , Yiqiong Sun , Huili Wen , Zhipeng Chen , Zijie Li , Dongli Yu , Haitao Cui , Jingni Wu , Yufeng Wu , Sun Tae Kim , Jing Zhao , Jane E. Parker , Kenichi Tsuda , Chunhao Jiang , Yiming Wang ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.1016/j.celrep.2024.113985 · OA: W4393063425

Emerging evidence suggests a beneficial role of rhizobacteria in ameliorating plant disease resistance in an environment-friendly way. In this study, we characterize a rhizobacterium, Bacillus cereus NJ01, that enhances bacterial pathogen resistance in rice and Arabidopsis. Transcriptome analyses show that root inoculation of NJ01 induces the expression of salicylic acid (SA)- and abscisic acid (ABA)-related genes in Arabidopsis leaves. Genetic evidence showed that EDS1, PAD4, and WRKY18 are required for B. cereus NJ01-induced bacterial resistance. An EDS1-PAD4 complex interacts with WRKY18 and enhances its DNA binding activity. WRKY18 directly binds to the W box in the promoter region of the SA biosynthesis gene ICS1 and ABA biosynthesis genes NCED3 and NCED5 and contributes to the NJ01-induced bacterial resistance. Taken together, our findings indicate a role of the EDS1/PAD4-WRKY18 complex in rhizobacteria-induced disease resistance.