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Ethylene-mediated nitric oxide depletion pre-adapts plants to hypoxia stress. | LitMetric
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Ethylene-mediated nitric oxide depletion pre-adapts plants to hypoxia stress.

Sjon Hartman Zeguang Liu Hans van Veen Jorge Vicente Emilie Reinen Shanice Martopawiro Hongtao Zhang Nienke van Dongen Femke Bosman George W Bassel Eric J W Visser Julia Bailey-Serres Frederica L Theodoulou Kim H Hebelstrup Daniel J Gibbs Michael J Holdsworth Rashmi Sasidharan Laurentius A C J Voesenek

Nat Commun

Plant Ecophysiology, Institute of Environmental Biology, Utrecht University, Padualaan 8, 3584 CH, Utrecht, The Netherlands.

Published: September 2019

AI Article Synopsis

  • Timely detection of environmental changes is crucial for plant survival, particularly during submergence when gas levels fluctuate. !* -
  • In the study, Arabidopsis thaliana plants sense submergence through ethylene trapping, which enhances the stability of ERFVII transcription factors amid flooding-induced low oxygen levels. !* -
  • The findings indicate that ethylene can increase PHYTOGLOBIN1 levels to deplete nitric oxide, thereby helping plants pre-adapt to low oxygen conditions, revealing important targets for creating flood-resistant crops. !*

Article Abstract

Timely perception of adverse environmental changes is critical for survival. Dynamic changes in gases are important cues for plants to sense environmental perturbations, such as submergence. In Arabidopsis thaliana, changes in oxygen and nitric oxide (NO) control the stability of ERFVII transcription factors. ERFVII proteolysis is regulated by the N-degron pathway and mediates adaptation to flooding-induced hypoxia. However, how plants detect and transduce early submergence signals remains elusive. Here we show that plants can rapidly detect submergence through passive ethylene entrapment and use this signal to pre-adapt to impending hypoxia. Ethylene can enhance ERFVII stability prior to hypoxia by increasing the NO-scavenger PHYTOGLOBIN1. This ethylene-mediated NO depletion and consequent ERFVII accumulation pre-adapts plants to survive subsequent hypoxia. Our results reveal the biological link between three gaseous signals for the regulation of flooding survival and identifies key regulatory targets for early stress perception that could be pivotal for developing flood-tolerant crops.

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 Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6728379PMC
http://dx.doi.org/10.1038/s41467-019-12045-4DOI Listing

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