Maina, Mahmoud B.Al-Hilaly, Youssra K.Burra, GunasekharRickard, Janet E.Harrington, Charles R.Wischik, Claude M.Serpell, Louise C.2021-04-012021-04-012021-03-22Maina, M B, Al-Hilaly, Y K, Burra, G, Rickard, J E, Harrington, C R, Wischik, C M & Serpell, L C 2021, 'Oxidative Stress Conditions Result in Trapping of PHF-Core Tau (297–391) Intermediates', Cells, vol. 10, no. 3, 703. https://doi.org/10.3390/cells100307032073-4409Bibtex: cells10030703ORCID: /0000-0003-2250-3920/work/173415909https://hdl.handle.net/2164/16165Funding: This work was supported by funding from Alzheimer’s Society [345 (AS-PG-16b-010)] awarded to L.C.S. and funding M.B.M. Y.K.A.-H. is supported by WisTa Laboratories Ltd. (PAR1596). The work was supported by ARUK South Coast Network. G.B. was supported by European Molecular Biology Organisation (EMBO) Short-Term Fellowship award (EMBO-STF 7674). LCS is supported by BBSRC [BB/S003657/1]. Acknowledgments: TEM work was performed at the University of Sussex’s Electron microscopy imaging centre (EMC), funded by the School of Life Sciences, the Wellcome Trust (095605/Z/11/A, 208348/Z/17/Z) and the RM Phillips Trust. The authors thank Pascale Schellenberger for valuable support.1730297239engAlzheimer’s diseasetaudityrosinepaired helical filamentOxidative StressR MedicineWellcome Trust095605/Z/11/A208348/Z/17/ZAlzheimers Research UK345 (AS-PG-16b-010)OtherEMBO-STF 7674Biotechnology and Biological Sciences Research Council (BBSRC)BB/S003657/1RJournal article10.3390/cells10030703103