KDM7-mediated oxygen sensing reprograms chromatin to enhance hypoxia tolerance in the root

  1. Daai Zhang
  2. Ximena Chirinos
  3. Alessia Del Chiaro
  4. Vinay Shukla
  5. Alexander Ryder
  6. Ane Del Pozo Beltrán
  7. Sergio Iacopino
  8. Pedro Bota
  9. Dušan Živković
  10. Francesco Fioriti
  11. Yuri Telara
  12. Cara J. Ellison
  13. Filippo Costa
  14. Paul R. Elliott
  15. Federico Giorgi
  16. Beatrice Giuntoli
  17. Emily Flashman
  18. Isidro Abreu
  19. Francesco Licausi
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Abstract

Roots frequently encounter low oxygen (hypoxia) from soil compaction or water saturation and must adapt to this stress. We investigated how root tip cells sense hypoxia and adjust the meristem epigenome to activate genes that promote tolerance and growth under oxygen limitation. In Arabidopsis root tips, hypoxia tolerance was linked to increased trimethylation of histone H3 at lysine 4 (H3K4me3). We also found that group 7 demethylases (KDM7s) are directly inhibited by hypoxia, and that genetic inactivation of KDM7s, like hypoxia, induces expression of genes essential for meristem survival under oxygen deprivation. We propose that KDM7s function as root-specific oxygen sensors that prime and support hypoxia tolerance.

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