Abstract
Plants have developed various mechanisms for avoiding pathogen invasion, including resistance (R) genes. Most R genes encode nucleotide-binding domain and leucine-rich repeat containing proteins (NLRs). Here, we report the isolation of three new bacterial blight R genes in rice, Xa1-2, Xa14, and Xa31(t), which were allelic to Xa1 and encoded atypical NLRs with unique central tandem repeats (CTRs). We also found that Xa31(t) was the same gene as Xa1-2. Although Xa1-2 and Xa14 conferred different resistance spectra, their performance could be attenuated by iTALEs, as has previously been reported for Xa1. XA1, XA1-2, XA14, and non-resistant RGAF differed mainly in the substructure of the leucine-rich repeat domain. They all contained unique CTRs and belonged to the CTR-NLRs, which existed only in Gramineae. We also found that interactions among these genes led to differing resistance performance. In conclusion, our results uncover a unique locus in rice consisting of at least three multiple alleles (Xa1, Xa1-2, and Xa14) that encode CTR-NLRs and confer resistance to Xanthomonas oryzae pv. oryzae (Xoo).