RNA seq analysis reveals the role of secondary metabolism in the response of URS 21, a race‐nonspecific resistant cultivar, to crown rust

Crown rust ( Puccinia coronata f. sp. avenae ) can devastate oats ( Avena sativa ). Plants possessing durable resistance are desirable and they may contain mechanisms that differ from those underlying genes with specific effects. Gathering information about the molecular mechanisms involved, especially those not associated with the hypersensitive reaction, and combining those acting at different infection stages may increase the ability to defeat the pathogen. The cultivar URS 21 has strongly reduced the intensity and growth of crown rust for the last 14 years, demonstrating durable race‐nonspecific resistance expressed at adult and seedling stages. The main objective of this study was to identify, by deep sequencing, oat transcripts induced by P. coronata in the URS 21 cultivar inoculated at seedling stage. Two important reactions to inoculation, secondary metabolism and the oxidative response, were studied further. The expression of specific genes associated with biosynthesis of secondary metabolites was evaluated in adult plants by RT ‐ PCR , as well as the accumulation of saponins and avenanthramides, found to be important in other pathosystems, and comparisons were made with the susceptible cultivar URS 22. The URS 21 resistance mechanism probably involves several components including the biosynthesis of avenanthramides and steroid saponins; also, several genes related to antioxidative stress were down‐regulated. A large number of oat sequences were generated by RNA ‐seq analysis in this study, which will help in the search for genes involved in the race‐nonspecific resistance; they may also be useful in the development of markers to search for QTL s associated with race‐nonspecific resistance.