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k-mer-based GWAS in a wheat collection reveals novel and diverse sources of powdery mildew resistance

Benjamin Jaegle, Yoav Voichek, Max Haupt, Alexandros G. Sotiropoulos, Kevin Gauthier, Matthias Heuberger, Esther Jung, Gerhard Herren, Victoria Widrig, Rebecca Leber, Yipu Li, Beate Schierscher, Sarah Serex, Maja Boczkowska, Marta-Puchta Jasińska, Paulina Bolc, Boulos Chalhoub, Nils Stein, Beat Keller, Javier Sánchez‐Martín

2025Genome biology9 citationsDOIOpen Access PDF

Abstract

Wheat genetic resources hold the diversity required to mitigate agricultural challenges from climate change and reduced inputs. Using DArTseq, we genotype 461 wheat landraces and cultivars and evaluate them for powdery mildew resistance. By developing a k-mer-based GWAS approach with fully assembled genomes of Triticum aestivum and its progenitors, we uncover 25% more resistance-associated k-mers than single-reference methods, outperforming SNP-based GWAS in both loci detection and mapping precision. In total, we detect 34 powdery mildew resistance loci, including 27 potentially novel regions. Our approach underscores the importance of integrating multiple reference genomes to unlock the potential of wheat germplasm.

Topics & Concepts

Powdery mildewBiologyGenome-wide association studyGermplasmGeneticsResistance (ecology)GenomeGenetic diversityPlant disease resistanceComputational biologyGenotypeBiotechnologyAgronomySingle-nucleotide polymorphismGenePopulationSociologyDemographyWheat and Barley Genetics and PathologyGenetic Mapping and Diversity in Plants and AnimalsGenomics and Phylogenetic Studies
k-mer-based GWAS in a wheat collection reveals novel and diverse sources of powdery mildew resistance | Litcius