Homeostatic response to hypoxia is regulated by the N-end rule pathway in plants

Daniel J Gibbs, Seung Cho Lee, Nurulhikma Md Isa, Silvia Gramuglia, Takeshi Fukao, George W Bassel, Cristina Sousa Correia, Françoise Corbineau, Frederica L Theodoulou, Julia Bailey-Serres, Michael J Holdsworth

Research output: Contribution to journalArticlepeer-review

369 Citations (Scopus)


Plants and animals are obligate aerobes, requiring oxygen for mitochondrial respiration and energy production. In plants, an unanticipated decline in oxygen availability (hypoxia), as caused by roots becoming waterlogged or foliage submergence, triggers changes in gene transcription and messenger RNA translation that promote anaerobic metabolism and thus sustain substrate-level ATP production. In contrast to animals, oxygen sensing has not been ascribed to a mechanism of gene regulation in response to oxygen deprivation in plants. Here we show that the N-end rule pathway of targeted proteolysis acts as a homeostatic sensor of severe low oxygen levels in Arabidopsis, through its regulation of key hypoxia-response transcription factors. We found that plants lacking components of the N-end rule pathway constitutively express core hypoxia-response genes and are more tolerant of hypoxic stress. We identify the hypoxia-associated ethylene response factor group VII transcription factors of Arabidopsis as substrates of this pathway. Regulation of these proteins by the N-end rule pathway occurs through a characteristic conserved motif at the amino terminus initiating with Met-Cys. Enhanced stability of one of these proteins, HRE2, under low oxygen conditions improves hypoxia survival and reveals a molecular mechanism for oxygen sensing in plants via the evolutionarily conserved N-end rule pathway. SUB1A-1, a major determinant of submergence tolerance in rice, was shown not to be a substrate for the N-end rule pathway despite containing the N-terminal motif, indicating that it is uncoupled from N-end rule pathway regulation, and that enhanced stability may relate to the superior tolerance of Sub1 rice varieties to multiple abiotic stresses.

Original languageEnglish
Pages (from-to)415-418
Number of pages4
Issue number7373
Early online date23 Oct 2011
Publication statusPublished - 17 Nov 2011

Bibliographical note

© 2011 Macmillan Publishers Limited. All rights reserved


  • Acclimatization
  • Anaerobiosis
  • Arabidopsis
  • Arabidopsis Proteins
  • Cell Hypoxia
  • Ethylenes
  • Floods
  • Gene Expression Regulation, Plant
  • Homeostasis
  • Immersion
  • Oryza sativa
  • Oxygen
  • Proteolysis
  • RNA, Messenger
  • RNA, Plant
  • Transcription Factors


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