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A phloem‐localized Arabidopsis metacaspase ( <scp>AtMC3</scp> ) improves drought tolerance

Eugenia Pitsili, Ricardo Rodriguez‐Trevino, Nerea Ruiz-Solaní, Fatih Demir, Elizabeth Kastanaki, Charlene Dambire, Roger de Pedro‐Jové, Dominique Vercammen, Jose Salguero‐Linares, Hardy Hall, Melissa Mantz, Martin J. Schuler, Hannele Tuominen, Frank Van Breusegem, Marc Valls, Sergi Munné‐Bosch, Michael J. Holdsworth, Pitter F. Huesgen, Antía Rodríguez‐Villalón, Núria S. Coll

2023New Phytologist22 citationsDOIOpen Access PDF

Abstract

Increasing drought phenomena pose a serious threat to agricultural productivity. Although plants have multiple ways to respond to the complexity of drought stress, the underlying mechanisms of stress sensing and signaling remain unclear. The role of the vasculature, in particular the phloem, in facilitating inter-organ communication is critical and poorly understood. Combining genetic, proteomic and physiological approaches, we investigated the role of AtMC3, a phloem-specific member of the metacaspase family, in osmotic stress responses in Arabidopsis thaliana. Analyses of the proteome in plants with altered AtMC3 levels revealed differential abundance of proteins related to osmotic stress pointing into a role of the protein in water-stress-related responses. Overexpression of AtMC3 conferred drought tolerance by enhancing the differentiation of specific vascular tissues and maintaining higher levels of vascular-mediated transportation, while plants lacking the protein showed an impaired response to drought and inability to respond effectively to the hormone abscisic acid. Overall, our data highlight the importance of AtMC3 and vascular plasticity in fine-tuning early drought responses at the whole plant level without affecting growth or yield.

Topics & Concepts

BiologyArabidopsisPhloemArabidopsis thalianaCell biologyAbscisic acidOsmotic shockDrought toleranceVascular tissueProteomeBotanyGeneticsGeneMutantPlant Stress Responses and TolerancePhotosynthetic Processes and MechanismsPlant nutrient uptake and metabolism