Author:
Yeung Elaine,van Veen Hans,Vashisht Divya,Sobral Paiva Ana Luiza,Hummel Maureen,Rankenberg Tom,Steffens Bianka,Steffen-Heins Anja,Sauter Margret,de Vries Michel,Schuurink Robert C.,Bazin Jérémie,Bailey-Serres Julia,Voesenek Laurentius A. C. J.,Sasidharan Rashmi
Abstract
Abiotic stresses in plants are often transient, and the recovery phase following stress removal is critical. Flooding, a major abiotic stress that negatively impacts plant biodiversity and agriculture, is a sequential stress where tolerance is strongly dependent on viability underwater and during the postflooding period. Here we show that inArabidopsis thalianaaccessions (Bay-0 and Lp2-6), different rates of submergence recovery correlate with submergence tolerance and fecundity. A genome-wide assessment of ribosome-associated transcripts in Bay-0 and Lp2-6 revealed a signaling network regulating recovery processes. Differential recovery between the accessions was related to the activity of three genes:RESPIRATORY BURST OXIDASE HOMOLOG D,SENESCENCE-ASSOCIATED GENE113, andORESARA1, which function in a regulatory network involving a reactive oxygen species (ROS) burst upon desubmergence and the hormones abscisic acid and ethylene. This regulatory module controls ROS homeostasis, stomatal aperture, and chlorophyll degradation during submergence recovery. This work uncovers a signaling network that regulates recovery processes following flooding to hasten the return to prestress homeostasis.
Funder
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
NSF | BIO | Division of Molecular and Cellular Biosciences
Publisher
Proceedings of the National Academy of Sciences
Cited by
149 articles.
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