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Combined <scp>GWAS</scp> and <scp>eGWAS</scp> reveals the genetic basis underlying drought tolerance in emmer wheat ( <i>Triticum turgidum</i> L.)

Guang Yang, Yan Pan, Wenqiu Pan, Qingting Song, Ruoyu Zhang, Wei Tong, Licao Cui, Wanquan Ji, Weining Song, Baoxing Song, Pingchuan Deng, Xiaojun Nie

2024New Phytologist30 citationsDOIOpen Access PDF

Abstract

Drought is one of the major environmental constraints for wheat production world-wide. As the progenitor and genetic reservoir of common wheat, emmer wheat is considered as an invaluable gene pool for breeding drought-tolerant wheat. Combining GWAS and eGWAS analysis of 107 accessions, we identified 86 QTLs, 105 462 eQTLs as well as 68 eQTL hotspots associating with drought tolerance (DT) in emmer wheat. A complex regulatory network composed of 185 upstream regulator and 2432 downstream drought-responsive candidates was developed, of which TtOTS1 was found to play a negative effect in determining DT through affecting root development. This study sheds light on revealing the genetic basis underlying DT, which will provide the indispensable genes and germplasm resources for elite drought tolerance wheat improvement and breeding.

Topics & Concepts

BiologyTriticum turgidumBotanyGeneticsPoaceaeWheat and Barley Genetics and PathologyGenetics and Plant BreedingGenetic Mapping and Diversity in Plants and Animals
Combined <scp>GWAS</scp> and <scp>eGWAS</scp> reveals the genetic basis underlying drought tolerance in emmer wheat ( <i>Triticum turgidum</i> L.) | Litcius