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  • Roma LP, Deponte M, Riemer J, Morgan B. Mechanisms and applications of redox-sensitive GFP-based H2O2 probes. Antioxid Redox Signal. (2017). In press. 

  • Staudacher V, Trujillo M, Diederichs T, Dick TP, Radi R, Morgan B, Deponte M. Redox-sensitive GFP fusions for monitoring catalytic mechanism and inactivation of peroxiredoxins in living cells. Redox Biology. (2017). In press.

  • Calabrese G, Morgan B*, Riemer J. Mitochondrial glutathione: Regulation and Functions. Antioxid Redox Signal. (2017). In press

  • Yofe I, Solimann K, Chuartzman SG, Morgan B, Weill U, Yaari E, Dick TP, Cooper SJ, Ejsing CS, Schuldiner M, Zalckvar E, Thoms S. Pex35 is a regulator of peroxisome abundance. J. Cell Science. (2017). In press

  • Morgan B* and Herrmann J. Disulfide bonds. Encyclopedia of Life Sciences. (2017). In press. 


  • Swain L, Kesemeyer A, Meyer-Roxlau S, Vettel C, Zieseniss A, Güntsch A, Jatho A, Becker A, Nanadikar MS, Morgan B, Dennerlein S, Shah AM, El-Armouche A, Nikolaev VO, Katschinski DM. Circulation Research. (2016) 119(9):1004-1016 

  • Morgan B, Van Laer K, Owusu TNE, Ezerina D, Pastor-Flores D, Amponsah PS, Tursch A, Dick TP. Real-time monitoring of basal H2O2 levels with peroxiredoxin-based probes. Nat Chem Biol (2016). 12(6):437-43. 

  • Morgan B and Schwarzländer M. Fluoreszierende Proteinsensoren für die Redoxregulation in lebeden Zellen. BIOspektrum. 22 (3), 260-263


  • Schwarzländer M, Dick TP, Meye AJ, Morgan B. Dissecting Redox Biology using Fluorescent Protein Sensors. Antioxid Redox Signal. 2015 Apr 13. [Epub ahead of print]

  • Hildebrandt T, Knuesting J, Berndt C, Morgan B, Scheibe R. Cytosolic thiol switches regulating basic cellular functions: GAPDH as an information hub? Biol Chem. 2015 Jan 10. doi: 10.1515/hsz-2014-0295. [Epub ahead of print]

  • Peralta D, Bronowska AK, Morgan B, Doka E, Van Laer K, Nagy P, Gräter F and Dick TP. A proton relay enhances H2O2-sensitivity of GAPDH to facilitate metabolic adaptation under oxidative stress. Nat Chem Biol. 2015 Feb;11(2):156-63. doi: 10.1038/nchembio.1720. Epub 2015 Jan 12.


  • Schwarzländer M, Wagner S, Ermakova YG, Belousov VV, Radi R, Beckman JS, Buettner GR, Demaurex N, Duchen MR, Forman HJ, Fricker MD, Gems D, Halestrap AP, Halliwell B, Jakob U, Johnston IG, Jones NS, Logan DC, Morgan B, Müller FL, Nicholls DG, Remington SJ, Schumacker PT, Winterbourn CC, Sweetlove LJ, Meyer AJ, Dick TP, Murphy MP. The ‘mitoflash’ probe cpYFP does not respond to superoxide. Nature. 2014; 514(7523):E12-4.

  • Elbaz-Alon Y, Morgan B*, Clancy A, Amoako TN, Zalckvar E, Dick TP, Schwappach B, Schuldiner M. The yeast oligopeptide transporter Opt2 is localized to peroxisomes and affects glutathione redox homeostasis. FEMS Yeast Res. 2014 Nov;14(7):1055-67. doi: 10.1111/1567-1364.12196. Epub 2014 Sep 22* Joint first author publication

  • Morgan B. Reassessing cellular glutathione homoeostasis: novel insights revealed by genetically encoded redox probes. Biochem Soc Trans. 2014; 42(4): 979-84.

  • Ezerina D, Morgan B, Dick TP. Imaging dynamic redox processes with genetically encoded probes. J Mol Cell Cardiol 2014; 73: 43-49.


  • Morgan B, Ezerina D, Amoako T, Riemer J, Seedorf M and Dick TP. Multiple glutathione disulfide removal pathways mediate cytosolic redox homeostasis. Nat Chem Biol. 2013; 9:119-125.

  • Bode M, Longen S, Morgan B, Peleh V, Dick TP, Bihlmaier K and Herrmann JM. Inaccurately assembled cytochrome c oxidase can lead to oxidative stress-induced growth arrest. Antioxid Redox Signal. 2013 Jan 15. [Epub ahead of print]

  • Fujikawa Y*, Morgan B* and Dick TP. Fluorescent imaging of oxidative processes in multicellular organisms. In: Jakob U and Reichmann D eds. Oxidative Stress and Redox Regulation. Springer, March 31, 2013. *Joint first author publication


  • Kojer K, Bien M, Gangel H, Morgan B, Dick TP and Riemer J. Glutathione redox potential in the mitochondrial intermembrane space is linked to the cytosol and impacts the Mia40 redox state. EMBO J. 2012; 31(14):3169-82.


  • Morgan B, Sobotta MC and Dick TP. Measuring EGSH and H2O2 with roGFP2-based probes. Free Radic Biol Med. 2011; 51(11):1943-51.


  • Braun N*, Morgan B*, Dick T and Schwappach B. The yeast CLC protein is required for vesicular alkalinization during iron starvation. J Cell Sci. 2010; 51(11):1943-51. * Joint first author publication


  • Morgan B, Ang SK, Yan G and Lu H. Zinc can play chaperone-like and inhibitor roles during import of mitochondrial small Tim proteins. J Biol Chem. 2009; 284(11):6818-25.


  • Morgan B and Lu H. Oxidative folding competes with mitochondrial import of the small Tim proteins. Biochem J. 2008; 411(1):115-22.