WRKY1 confers resistance to powdery mildew by accelerating SAR and preventing over-immunity in apple

Abstract

AbstractPowdery mildew is one of the most serious diseases in apple production. SAR has a broad-spectrum immunity in plants against pathogen. Plants activate SAR against pathogen invasion and also prevent over-immunity. The relevant mechanism is still unknown in apple. In this study, we isolated and identified powdery mildew pathogen from the field and preserved them on the apple tissue culture seedlings. We performed DAP-seq of powdery mildew-inducible WRKY40. WRKY40 positively regulates NPR3like by directly binding to the W-box element of its promoter. NPR3like represses the expression of the PR1 gene in the presence of SA by competing with TGA2 for binding to NPR1. WRKY1 positively regulates WRKY40 by directly binding to the dual W-box element of its promoter, while WRKY1 positively regulates NPR3like by directly binding to the W-box element of its promoter. The expression trends of WRKY1, WRKY40, and NPR3like were basically the same as that of PR1 within 24 h after powdery mildew and SA treatments. Besides, WRKY1 increased SA content by positively regulating EPS1. After inoculation with powdery mildew, the up-regulation of PR1 in RNAi-silenced plants of WRKY1 was more slowly compared with the wild type, and the number of spores and mycelium increased significantly. In summary, we established a new model of NPR3like inhibition of NPR1 activity positively regulated by the WRKY1-WRKY40 module and found that the WRKY1-EPS1 module accelerated the up-regulation of PR1 by increasing the SA content. Finally, we elucidated WRKY1 confers resistance to powdery mildew by accelerating SAR and preventing over-immunity in apple.