Abstract
Key messageComparative sequence analysis was used to design a SNP marker that aided in the identification of new sources of oat stem rust resistance.New races of Puccinia graminis f. sp. avenae (Pga) threaten global oat production. An A. strigosa accession known to carry the broadly effective oat stem rust resistance gene, Pg6, was crossed with two susceptible A. strigosa accessions to generate 198 F2:3 families and 190 F5:6 RILs. The RIL population was used to determine that Pg6 was a single dominant gene located between 475 and 491 Mbp on diploid chromosome AA2 of the A. atlantica genome. This region was further refined by identifying SNPs associated with Pg6 resistance in a panel of previously sequenced A-genome accessions. Twenty-four markers were developed from SNPs that showed perfect association between the Pg6 phenotype and 11 sequenced Avena diploid accessions. These markers were validated in the RILs and F2:3 families, and the markers most closely linked with resistance were tested in a diverse panel of 253 accessions consisting of oat stem rust differentials, all available diploid Avena spp. accessions, and 41 A. vaviloviana accessions from the National Small Grains Collection. One SNP marker located at 483, 439, 497 bp on AA2, designated as AA2_483439497, was perfectly associated with the Pg6 phenotype in Avena strigosa diploids and was within several Kb of a resistance gene analog, RPP13. The marker results and seedling testing against Pga races DBD, KBD, TJS, and TQL enabled the postulation of Pg6 and potential new sources of resistance in the Avena panel. These results will be used to infer Pg6 presence in other germplasm collections and breeding programs and can assist with introgression, gene pyramiding, and cloning of Pg6.
Highlights
Oat (Avena sativa L.) is an important cereal crop with 23 million t of oat grain harvested globally in 2018 (FAOSTAT 2020)
Oat stem rust caused by the fungal pathogen Puccinia graminis f. sp. avenae Erikss. and Henning (Pga) is an economically important foliar disease of oat
There were 253 accessions selected for Pg6 resistance validation including 198 diploid accessions, 41 tetraploid accessions, 12 A. sativa stem rust differentials obtained from the USDA-ARS Cereal Disease Lab (CDL), and three susceptible A. sativa cultivars ‘Marvellous,’ ‘Otana,’ and ‘Rodney 0’ (Supplementary Table S1)
Summary
Oat (Avena sativa L.) is an important cereal crop with 23 million t of oat grain harvested globally in 2018 (FAOSTAT 2020). Oat grain is high in β-glucan soluble fiber, which can lower plasma glucose. Oat stem rust caused by the fungal pathogen Puccinia graminis f. Henning (Pga) is an economically important foliar disease of oat. Urediniospores of Pga rapidly proliferate on susceptible oat cultivars and can cause severe yield and quality losses under favorable environmental conditions (Roelfs and Long 1980; Martens 1985). Van Niekerk et al (2001) demonstrated that after an experimental stem rust epidemic, oat grain yield and test weight were reduced by 85% and 45%, respectively. Oat profit margins were low (Hoffman and Livezey 1987) making genetic resistance an attractive, cost-efficient form of disease control for this crop
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
