Integrating Semi-Dwarf Traits into Diverse Wheat Landraces through CRISPR/Cas9, Base Editing and Prime Editing
SMEDLEY, M. A.; Awal, R.; Hayta, S.; Nekrasov, V.; Kaniganti, S.; Forner, M.; Griffiths, S.
Show abstract
The semi dwarf stature of modern wheat varieties is conferred by RHT1 alleles derived from a single Japanese cultivar. These alleles are absent in landrace collections such as the Watkins collection. This constrains the direct use of rich genetic diversity preserved in Watkins landraces. These ancestral accessions, adapted to diverse local environments, harbour valuable traits absent from elite cultivars. Here, we demonstrate a precision breeding approach that integrates CRISPR/Cas9, cytosine base editing, and prime editing to introduce semi-dwarfing alleles into selected Watkins landraces. Our strategy overcomes problems caused by the tall stature of most Watkins accessions, providing rapid and precise modification of the Rht1 locus to confer semi-dwarf phenotypes. High editing efficiencies achieved across multiple Watkins landrace wheat lines confirm the robustness of our approach. By unlocking previously untapped genetic variation and enabling targeted trait integration, this study lays the foundation for modern landrace-based breeding programs, supporting sustainable wheat improvement and global food security.
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