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Copy number variation of <i>TdDof</i> controls solid-stemmed architecture in wheat

Kirby T. Nilsen, Sean Walkowiak, Daoquan Xiang, Peng Gao, Teagen D. Quilichini, Ian R. Willick, Brook Byrns, Amidou N’Diaye, Jennifer Ens, Krystalee Wiebe, Yuefeng Ruan, Richard D. Cuthbert, Melanie Craze, Emma J. Wallington, James Simmonds, Cristóbal Uauy, Raju Datla, Curtis Pozniak

2020Proceedings of the National Academy of Sciences59 citationsDOIOpen Access PDF

Abstract

Significance Solid-stemmed wheat cultivars are resistant to the wheat stem sawfly, an important agricultural pest. Here, we identify TdDof as the causal gene that controls stem solidness in wheat. We show that copy number gain of TdDof correlates with its increased expression and the solid-stem phenotype. Our results suggest TdDof could function as a key regulator of genes involved in programmed cell death of the pith parenchyma cells. This research provides the framework to manipulate stem architecture in wheat and other monocots, which can be applied toward downstream agricultural and industrial applications. These include enhancing wheat stem sawfly resistance, modifying carbon partitioning and water-soluble carbohydrate remobilization in plants under drought and temperature stress, and bioenergy production.

Topics & Concepts

BiologyPithSawflyRegulatorPlant stemCultivarBotanyGeneAgronomyBiotechnologyGeneticsLarvaWheat and Barley Genetics and PathologyCrop Yield and Soil FertilityBioenergy crop production and management
Copy number variation of <i>TdDof</i> controls solid-stemmed architecture in wheat | Litcius