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Abstract The introgression of chromosome segments from wild relatives is an established strategy to enrich crop germplasm with disease-resistance genes 1 . Here we use mutagenesis and transcriptome sequencing to clone the leaf rust resistance gene Lr9 , which was introduced into bread wheat from the wild grass species Aegilops umbellulata 2 . We established that Lr9 encodes an unusual tandem kinase fusion protein. Long-read sequencing of a wheat Lr9 introgression line and the putative Ae. umbellulata Lr9 donor enabled us to assemble the ~28.4-Mb Lr9 translocation and to identify the translocation breakpoint. We likewise cloned Lr58 , which was reportedly introgressed from Aegilops triuncialis 3 , but has an identical coding sequence compared to Lr9 . Cytogenetic and haplotype analyses corroborate that the two genes originate from the same translocation event. Our work sheds light on the emerging role of kinase fusion proteins in wheat disease resistance, expanding the repertoire of disease-resistance genes for breeding. 

Stem rust is an important disease of wheat that can be controlled using resistance genes. The geneSuSr-D1identified in cultivar ‘Canthatch’ suppresses stem rust resistance.SuSr-D1mutants are resistant to several races of stem rust that are virulent on wild-type plants. Here we identifySuSr-D1by sequencing flow-sorted chromosomes, mutagenesis, and map-based cloning. The gene encodes Med15, a subunit of the Mediator Complex, a conserved protein complex in eukaryotes that regulates expression of protein-coding genes. Nonsense mutations in Med15b.D result in expression of stem rust resistance. Time-course RNAseq analysis show a significant reduction or complete loss of differential gene expression at 24 h post inoculation inmed15b.Dmutants, suggesting that transcriptional reprogramming at this time point is not required for immunity to stem rust. Suppression is a common phenomenon and this study provides novel insight into suppression of rust resistance in wheat.