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A haplotype-resolved pangenome of the barley wild relative Hordeum bulbosum

Jia‐Wu Feng, Hélène Pidon, María Cuacos, Thomas Lux, Axel Himmelbach, Reza Haghi, Jörg Fuchs, Georg Haberer, Yi‐Tzu Kuo, Yu Guo, Murukarthick Jayakodi, Helena Toegelová, Dörte Harpke, Manuela Knauft, Anne Fiebig, Maren Maruschewski, Moshe Ronen, Amir Sharon, Hana Šimková, Klaus Mayer, M. Spannagl, Jochen Kumlehn, Stefan Heckmann, Andreas Houben, Frank R. Blattner, Nils Stein, Martin Mascher

2025Nature15 citationsDOIOpen Access PDF

Abstract

Abstract Wild plants can contribute valuable genes to their domesticated relatives 1 . Fertility barriers and a lack of genomic resources have hindered the effective use of crop–wild introgressions. Decades of research into barley’s closest wild relative, Hordeum bulbosum , a grass native to the Mediterranean basin and Western Asia, have yet to manifest themselves in the release of a cultivar bearing alien genes 2 . Here we construct a pangenome of bulbous barley comprising 10 phased genome sequence assemblies amounting to 32 distinct haplotypes. Autotetraploid cytotypes, among which the donors of resistance-conferring introgressions are found, arose at least twice, and are connected among each other and to diploid forms through gene flow. The differential amplification of transposable elements after barley and H. bulbosum diverged from each other is responsible for genome size differences between them. We illustrate the translational value of our resource by mapping non-host resistance to a viral pathogen to a structurally diverse multigene cluster that has been implicated in diverse immune responses in wheat and barley.

Topics & Concepts

Hordeum vulgareHaplotypeHordeumBiologyBotanyGeneticsPoaceaeGeneGenotypeWheat and Barley Genetics and PathologyPlant Disease Resistance and GeneticsPlant nutrient uptake and metabolism
A haplotype-resolved pangenome of the barley wild relative Hordeum bulbosum | Litcius