Mapping Pc94-Mediated Crown Rust Resistance in Oat Reveals a zfBED NLR and Introgression Variation

Host resistance is a critical component of oat crown rust disease management. Pc94 is a qualitative resistance locus derived from diploid Avena strigosa with several independent introgressions into A. sativa that have been used in cultivar deployment. Quantitative trait locus (QTL) analysis combining previously published data for a historic A. strigosa population segregating for Pc94 revealed a large effect QTL on the distal end of A. strigosa chromosome 7A. Genome assembly of the parents identified a cluster of five nucleotide binding site leucine-rich repeat receptor (NLR) candidate genes within the QTL region. A single candidate NLR with an integrated zinc finger BED domain, AstNLR94, was determined as necessary for Pc94 resistance based on map-based cloning and forward mutagenesis. A presence/absence allele specific PCR marker was designed in AstNLR94 and verified for accuracy and specificity in a diverse panel of A. strigosa and A. sativa. Pc94 introgressions in A. sativa ranged in size from 1.7-71 Mbp and two different introgression locations appear to have occurred. In A. sativa Leggett, a 6.3 Mbp Pc94 introgression is located at the end of chromosome 2A, and the same sized introgression was discovered in the OT3098 v2 genome. Finally, a QTL analysis identified an additional minor resistance locus on A. strigosa chromosome 4A, which has complicated previous efforts to characterize the Pc94 locus. This is the first report of an NLR gene underlying disease resistance in Avena spp. and delivers a Pc94 marker for marker assisted selection to produce disease resistant cultivars. Key messageWe mapped a zfBED-NLR encoding gene necessary for Pc94 resistance, developed a diagnostic marker, and revealed diverse introgression sizes, clarifying Pc94s history and utility for durable oat crown rust resistance.