Ectopic expression of wheat TOR coordinates a balance between photosynthetic performance and water use efficiency
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ABSTRACT: Drought is one of the most severe environmental stresses affecting wheat production worldwide, addressing this challenge requires the development of drought-resistance wheat varieties. Target of Rapamycin (TOR) signaling is a central regulator that integrates diverse nutrient, energy, hormone, and environmental stress response signals to coordinate plants growth and development. Recent studies have uncovered the functions of TOR in plant responses to abiotic stresses. In this study, with the aim to investigate TOR functions in response to drought stress in wheat, we generated wheat transgenic plants expressing TaTOR under the control of constitutive and drought inducible promoters. We found that enhancing the expression of TaTOR, expressed by either a constitutive promoter (UBQ) or drought-induced promoters (DREM/DEH2), significantly improved drought resistance and effectively alleviated the yield loss caused by drought stress in wheat. Our findings through transcriptome analysis of TaTOR transgenic plants highlight the role of TaTOR in wheat drought resistance, thus providing a valuable new target for developing wheat cultivars with improved drought resistance to address the drought and climate change challenges threatening the wheat crop performance and productivity.
ORGANISM(S): Triticum aestivum
PROVIDER: GSE294809 | GEO | 2026/06/30
REPOSITORIES: GEO
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