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MdERF114 enhances the resistance of apple roots to<i>Fusarium solani</i>by regulating the transcription of<i>MdPRX63</i>

Yusong Liu, Qianwei Liu, Xuewen Li, Zhijun Zhang, Shukang Ai, Cheng Liu, Fengwang Ma, Chao Li

2023PLANT PHYSIOLOGY63 citationsDOIOpen Access PDF

Abstract

As the main fungal etiologic agent of apple (Malus domestica) replant disease (ARD), Fusarium solani seriously damages apple roots. Ethylene response factors (ERFs) play an important role in plant resistance to biotic stress. Here, we show that MdERF114 is expressed during F. solani infections and positively regulates the resistance of apple roots to F. solani. Yeast one-hybrid, dual-luciferase, electrophoretic mobility shift assays and determinations of lignin content indicated that MdERF114 directly binds the GCC-box of the MdPEROXIDASE63 (MdPRX63) promoter and activates its expression, resulting in lignin deposition in apple roots and increased resistance to F. solani. We identified a WRKY family transcription factor, MdWRKY75, that binds to the W-box of the MdERF114 promoter. Overexpression of MdWRKY75 enhanced resistance of apple roots to F. solani. MdMYB8 interacted with MdERF114 to enhance resistance to F. solani by promoting the binding of MdERF114 to the MdPRX63 promoter. In summary, our findings reveal that the MdWRKY75-MdERF114-MdMYB8-MdPRX63 module is required for apple resistance to F. solani and the application of this mechanism by Agrobacterium rhizogenes-mediated root transformation provides a promising strategy to prevent ARD.

Topics & Concepts

Fusarium solaniWRKY protein domainBiologyTransformation (genetics)Transcription factorBotanyHorticultureMalusArabidopsisGeneGeneticsMutantPlant Gene Expression AnalysisBiochemical and biochemical processesHorticultural and Viticultural Research
MdERF114 enhances the resistance of apple roots to<i>Fusarium solani</i>by regulating the transcription of<i>MdPRX63</i> | Litcius