Common bacterial blight (CBB) is a devastating seed-transmitted disease of common bean (Phaseolus vulgaris L.), caused by Xanthomonas phaseoli pv. phaseoli and Xanthomonas citri pv. fuscans. The genes responsible for CBB resistance are largely unknown. Moreover, the lack of a reproducible and universal transformation protocol limits the study of genetic traits in common bean. We produced X. phaseoli pv. phaseoli strains expressing artificially designed transcription-activator like effectors (dTALEs) to target 14 candidate genes for resistance to CBB based on previous transcriptomic data. In planta assays in a susceptible common bean genotype showed that induction of PvOFP7, PvAP2-ERF71, or PvExpansinA17 expression by dTALEs resulted in CBB symptom reduction. After PvOFP7 induction, in planta bacterial growth was reduced at early colonization stages, and RNA-seq analysis revealed up-regulation of cell wall formation and primary metabolism, together with major down-regulation of heat shock proteins. Our results demonstrated that PvOFP7 contributes to CBB resistance, and underlined the usefulness of dTALEs for functional validation of genes whose induction impacts Xanthomonas-plant interactions.
Keywords: Phaseolus vulgaris; Xanthomonas; Bean; cell wall; common bacterial blight; defense; heat shock proteins; plant pathology.
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