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Sarah Heath (2019)PhD Candidate

BBiomedSc(Hons)(Otago)

Email heasa126@student.otago.ac.nz
Tel +64 3 364 1648

Research interests

Sarah Heath is undertaking molecular analysis of p16 amyloid formation.

Publications

Bozonet, S. M., Magon, N. J., Schwartfeger, A. J., Konigstorfer, A., Heath, S. G., Vissers, M. C. M., … Göbl, C., … Hampton, M. B. (2023). Oxidation of caspase-8 by hypothiocyanous acid enables TNF-mediated necroptosis. Journal of Biological Chemistry, 104792. Advance online publication. doi: 10.1016/j.jbc.2023.104792

Morris, V. K., Heath, S. G., O'Connor, K. M., Bozonnet, S., Gray, S. G., Naughton, J. D., Magon, N. J., Smith, B. R., Botha, A. D., … Göbl, C. (2022, August). The tumour suppressor protein p16 forms amyloid structures. Verbal presentation at the Cancer Satellite Meeting: Queenstown Research Week, Queenstown, New Zealand.

Heath, S. G., Magon, N. J., Winterbourn, C. C., Hampton, M., Morris, V. K., & Göbl, C. (2021). Oxidation induced amyloid formation of the tumour suppressor protein p16. Proceedings of the 16th Congress of the Federation of Asian & Oceanic Biochemists & Molecular Biologists (FAOBMB). (pp. 33). Retrieved from https://www.faobmb2021.org

Crowther, J. M., Gilmour, L. H., Porebski, B. T., Heath, S. G., Pattinson, N. R., Owen, M. C., … Göbl, C., & Dobson, R. C. J. (2021). Molecular basis of a redox switch: Molecular dynamics simulations and surface plasmon resonance provide insight into reduced and oxidised angiotensinogen. Biochemical Journal, 478, 3319-3330. doi: 10.1042/bcj20210476

O'Connor, K. M., Konigstorfer, A., Zawari, M., Betz, A., Heath, S., Hildebrand, J. M., … Hampton, M. (2017, September). MLKL-dependent disruption of mitochondrial function and redox homeostasis during the initiation of TNF-mediated necroptosis. Verbal presentation at the Queenstown Molecular Biology (QMB) Meetings, Queenstown, New Zealand.

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