Publications

A full list of publications from the O’Neill lab can be found here. For a selection of our most recent, see below:

Most recent articles

• Watson, J.L., et al. (2023 )
  Macromolecular condensation buffers intracellular water potential.
  Nature 623(7988): 842-852
• Beale, A.D., et al. (2023 )
  Mechanisms and physiological function of daily haemoglobin oxidation rhythms in red blood cells.
  EMBO J 42(19): e114164
• Rzechorzek, N.M., et al. (2022 )
  A daily temperature rhythm in the human brain predicts survival after brain injury.
  Brain 145(6): 2031-2048
• Wong, D.C.S., et al. (2022 )
  CRYPTOCHROMES promote daily protein homeostasis.
  EMBO J 41(1): e108883

Most recent reviews

• Stangherlin, A., Seinkmane, E., O'Neill, J.S. (2021)
  Understanding circadian regulation of mammalian cell function, protein homeostasis, and metabolism.
  Curr Opin Syst Biol 28: None
• O'Neill, J.S. (2021)
  Redox-coupled rhythm and brews.
  Nat Chem Biol 17(4): 373-374
• Stangherlin, A., O'Neill, J.S. (2018)
  Signal Transduction: Magnesium Manifests as a Second Messenger.
  Curr Biol 28(24): R1403-R1405
• Wong, D.C., O'Neill, J.S. (2018)
  Non-transcriptional processes in circadian rhythm generation.
  Curr Opin Physiol 5: 117-132

Recent techniques

• Stangherlin, A., Seinkmane, E., O'Neill, J.S. (2021)
  Understanding circadian regulation of mammalian cell function, protein homeostasis, and metabolism.
  Curr Opin Syst Biol 28: None
• O'Neill, J.S. (2021)
  Redox-coupled rhythm and brews.
  Nat Chem Biol 17(4): 373-374
• Stangherlin, A., O'Neill, J.S. (2018)
  Signal Transduction: Magnesium Manifests as a Second Messenger.
  Curr Biol 28(24): R1403-R1405
• Wong, D.C., O'Neill, J.S. (2018)
  Non-transcriptional processes in circadian rhythm generation.
  Curr Opin Physiol 5: 117-132