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Molecular Mechanisms and Experimental Strategies for Understanding Plant Drought Response

Adrianna Michalak, Karolina Małas, Kinga Dąbrowska, Kinga Półrolniczak, Lidia Bronowska, Anna Misiewicz, Angelika Maj, Maja Stabrowska, Iga Wnuk, Katarzyna Kabała

2026Plants8 citationsDOIOpen Access PDF

Abstract

Drought severely limits plant growth, threatening global food security and biodiversity. This review provides a comprehensive overview of the recent advances in plant responses to drought, ranging from initial sensing to physiological adaptation, as well as guidelines for experimental design. We focus on key regulatory components, specifically the ABA signaling core (PYR/PYL/RCARs, PP2C phosphatases, and SnRK2 kinases) and ROS signaling. We provide a detailed description of transcriptional networks, highlighting the pivotal roles of DREB, NAC, and MYB transcription factors in coordinating gene expression. Furthermore, we explore downstream tolerance strategies, including osmoprotectant (e.g., proline) accumulation, cell wall remodeling involving expansins and pectin methylesterases, as well as stomatal regulation. We also discuss how combining genetics with multi-omics and high-throughput phenotyping bridges the gap between molecular mechanisms and whole-plant physiological performance. Ultimately, these insights provide a foundation for refining research approaches and accelerating the development of drought-resilient crops to sustain agricultural productivity and ecosystem stability in increasingly arid environments.

Topics & Concepts

WRKY protein domainBiologyFood securityBiotechnologyMYBComputational biologyDrought toleranceOsmoprotectantGenetically modified cropsTranscriptional regulationArabidopsisTranscription factorAgricultureTurgor pressureTranscription (linguistics)Fight-or-flight responseGeneRegulation of gene expressionAgricultural biotechnologyAgricultural productivityPlant Stress Responses and TolerancePlant Gene Expression AnalysisPlant Molecular Biology Research