Laura Morales, Sebastian Michel, Christian Ametz, Hermann Gregor Dallinger, Franziska Löschenberger, Anton Neumayer, Simone Zimmerl & Hermann Buerstmayr
Theoretical and Applied Genetics September 2021; vol. 134: 3111–3121
Key message
We combined quantitative and population genetic methods to identify loci under selection for adult plant resistance to stripe rust in an Austrian winter wheat breeding population from 2008 to 2018.
Abstract
Resistance to stripe rust, a foliar disease caused by the fungus P. striiformis f. sp. tritici, in wheat (Triticum aestivum L.) is both qualitatively and quantitatively controlled. Resistance genes confer complete, race-specific resistance but are easily overcome by evolving pathogen populations, while quantitative resistance is controlled by many small- to medium-effect loci that provide incomplete yet more durable protection. Data on resistance loci can be applied in marker-assisted selection and genomic prediction frameworks. We employed genome-wide association to detect loci associated with stripe rust and selection testing to identify regions of the genome that underwent selection for stripe rust resistance in an Austrian winter wheat breeding program from 2008 to 2018. Genome-wide association mapping identified 150 resistance loci, 62 of which showed significant evidence of selection over time. The breeding population also demonstrated selection for resistance at the genome-wide level.
See: https://link.springer.com/article/10.1007/s00122-021-03882-3
Figure 1: Manhattan plots of GWA for stripe rust within (2009–2018) and across (2008–2018) years, with SNP physical positions on the x-axis, SNP − log10(p values) on the y-axis, and dashed horizontal lines denoting the FDR threshold for SNP significance. SNPs highlighted in blue and red denote SNPs under selection for the resistant and susceptible allele, respectively.
|
[ Other News ]___________________________________________________
|