Genome Targeted Introgression of Resistance to African Stem Rust from Aegilops sharonensis into Bread Wheat

• Main Authors: Eitan Millet, Brian J. Steffenson, Renée Prins, Hanan Sela, Alexandra M. Przewieslik-Allen, Zacharias A. Pretorius
• Format: Article
• Language: English
• Published: Wiley 2017-11-01
• Series: The Plant Genome
• Online Access: https://dl.sciencesocieties.org/publications/tpg/articles/10/3/plantgenome2017.07.0061

Many accessions of the wheat wild relative Sharon goatgrass ( Eig., ) are resistant to African races of the stem rust pathogen (i.e., Ug99 group races), which currently threaten wheat production worldwide. A procedure was designed to introgress the respective resistances to specific bread wheat genomes by producing plants homozygous for the A and B genomes and hemizygous for the D and S genomes or homozygous for the A and D genomes and hemizygous for the B and S genomes. In these genotypes, which lack the allele, homeologous pairing was expected mainly between chromosomes of the D and S genomes or B and S genomes, respectively. An antigametocidal (AG) wheat mutant () was used to overcome gametocidal effects. Wheat lines initially found resistant at the seedling stage were also highly resistant at the adult plant stage in rust nurseries established in the field. DNA of 41 selected homozygous resistant lines, analyzed by the Axiom wheat 820K SNP array, showed alien chromatin mainly in wheat chromosomes 1B, 1D, and 5B. This work suggests that, in most cases, it is possible to target introgressions into the homeologous chromosome of a selected genome of bread wheat.