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Publications

Hif-2α programs oxygen chemosensitivity in chromaffin cells.

Journal article

Prange-Barczynska M. et al, (2024), J Clin Invest, 134

N-terminal cysteine acetylation and oxidation patterns may define protein stability.

Journal article

Heathcote KC. et al, (2024), Nat Commun, 15

Comparative analysis of N-terminal cysteine dioxygenation and prolyl-hydroxylation as oxygen-sensing pathways in mammalian cells.

Journal article

Tian Y-M. et al, (2023), J Biol Chem, 299

Monitoring ADO dependent proteolysis in cells using fluorescent reporter proteins.

Chapter

Smith E. and Keeley TP., (2023), 686, 267 - 295

Nitric oxide biosensor uncovers diminished ferrous iron-dependency of cultured cells adapted to physiological oxygen levels.

Journal article

Sevimli G. et al, (2022), Redox Biol, 53

The developmental role of PHD2 in the pathogenesis of pseudohypoxic PPGLs

Conference paper

Prange-Barczynska M. et al, (2022), ACTA PHYSIOLOGICA, 236, 25 - 25

Hypoxic and pharmacological activation of HIF inhibits SARS-CoV-2 infection of lung epithelial cells.

Journal article

Wing PAC. et al, (2021), Cell Rep, 35

Nrf2-regulated redox signaling in brain endothelial cells adapted to physiological oxygen levels: Consequences for sulforaphane mediated protection against hypoxia-reoxygenation.

Journal article

Warpsinski G. et al, (2020), Redox Biol, 37

Conserved N-terminal cysteine dioxygenases transduce responses to hypoxia in animals and plants.

Journal article

Masson N. et al, (2019), Science, 365, 65 - 69

Defining Physiological Normoxia for Improved Translation of Cell Physiology to Animal Models and Humans.

Journal article

Keeley TP. and Mann GE., (2019), Physiol Rev, 99, 161 - 234

Reduced SERCA activity underlies dysregulation of Ca2+ homeostasis under atmospheric O2 levels.

Journal article

Keeley TP. et al, (2018), FASEB J, 32, 2531 - 2538

A PP2A-mediated feedback mechanism controls Ca2+-dependent NO synthesis under physiological oxygen.

Journal article

Keeley TP. et al, (2017), FASEB J, 31, 5172 - 5183

Bach1 differentially regulates distinct Nrf2-dependent genes in human venous and coronary artery endothelial cells adapted to physiological oxygen levels.

Journal article

Chapple SJ. et al, (2016), Free Radic Biol Med, 92, 152 - 162