An Avirulence Gene Cluster in the Wheat Stripe Rust Pathogen (Puccinia striiformis f. sp. ) Identified through Genetic Mapping and Whole-Genome Sequencing of a Sexual Population.

f. sp. , the causal agent of wheat stripe (yellow) rust, is an obligate, biotrophic fungus. It was difficult to study the genetics of the pathogen due to the lack of sexual reproduction. The recent discovery of alternate hosts for f. sp. makes it possible to study inheritance and map genes involved in its interaction with plant hosts. To identify avirulence () genes in f. sp. , we developed a segregating population by selfing isolate 12-368 on barberry () plants under controlled conditions. The dikaryotic sexual population segregated for avirulent/virulent phenotypes on nine single-gene lines. The parental and progeny isolates were whole-genome sequenced at >30× coverage using Illumina HiSeq PE150 technology. A total of 2,637 high-quality markers were discovered by mapping the whole-genome sequencing (WGS) reads to the reference genome of strain 93-210 and used to construct a genetic map, consisting of 41 linkage groups, spanning 7,715.0 centimorgans (cM) and covering 68 Mb of the reference genome. The recombination rate was estimated to be 1.81 ± 2.32 cM/10 kb. Quantitative trait locus analysis mapped six gene loci to the genetic map, including an cluster harboring four genes, , , , and Aligning the genetic map to the reference genome identified candidates and narrowed them to a small genomic region (<200 kb). The discovery of the gene cluster is useful for understanding pathogen evolution, and the identification of candidate genes is an important step toward cloning genes for studying molecular mechanisms of pathogen-host interactions. Stripe rust is a destructive disease of wheat worldwide. Growing resistant cultivars is the most effective, easy-to-use, economical, and environmentally friendly strategy for the control of the disease. However, f. sp. can produce new virulent races that may circumvent race-specific resistance. Therefore, understanding the genetic basis of the interactions between wheat genes for resistance and f. sp. genes for avirulence is useful for improving cultivar resistance for more effective control of the disease. This study developed a high-quality map that facilitates genomic and genetic studies of important traits related to pathogen pathogenicity and adaptation to different environments and crop cultivars carrying different resistance genes. The information on avirulence/virulence genes identified in this study can be used for guiding breeding programs to select combinations of genes for developing new cultivars with effective resistance to mitigate this devastating disease.