High-efficiency prime editing enables new strategies for broad-spectrum resistance to bacterial blight of rice

Using genetic resistance against bacterial blight (BB) caused by Xanthomonas oryzae pathovar oryzae (Xoo) is a major objective in rice breeding programmes. Prime editing (PE) has the potential to create novel germplasm against Xoo. Here, we use an improved prime-editing system to implement two new strategies for BB resistance. Knock-in of TAL effector binding elements (EBE) derived from the BB susceptible gene SWEET14 into the promoter of a dysfunctional executor R gene xa23 reaches 47.2% with desired edits including biallelic editing at 18% in T₀ generation that enables an inducible TALE-dependent BB resistance. Editing the transcription factor TFIIA gene TFIIAγ5 required for TAL effector-dependent BB susceptibility recapitulates the resistance of xa5 at an editing efficiency of 88.5% with biallelic editing rate of 30% in T₀ generation. The engineered loci provided resistance against multiple Xoo strains in T₁ generation. Whole-genome sequencing detected no OsMLH1dn-associated random mutations and no off-target editing demonstrating high specificity of this PE system. This is the first-ever report to use PE system to engineer resistance against biotic stress and to demonstrate knock-in of 30-nucleotides cis-regulatory element at high efficiency. The new strategies hold promises to fend rice off the evolving Xoo strains and protect it from epidemics.