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ARTICLE High Intrinsic Mechanical Flexibility of Mouse Prion Nanoﬁbrils Revealed by Measurements of Axial and Radial Young's Moduli Guillaume Lamour,†,‡,§,* Calvin K.
Supporting Information High Intrinsic Mechanical Flexibility of Mouse Prion Nanofibrils Revealed by Measurements of Axial and Radial Young’s Moduli Guillaume Lamour, Calvin K.
Rapid Report pubs.acs.org/biochemistry Long-Time Scale Fluctuations of Human Prion Protein Determined by Restrained MD Simulations Massih Khorvash, Guillaume Lamour, and Jörg Gsponer* Centre for High-Throughput Biology and Department of Biochemistry and Molecular Biology, University of British Columbia, East Mall, Vancouver, British Columbia V6T 1Z4, Canada S Supporting Information * parameters.4 During the restrained simulation, a pseudoenergy term penalizes deviations between experimental and simulated protection factors.
16552 • The Journal of Neuroscience, October 16, 2013 • 33(42):16552–16564 Neurobiology of Disease The Prion Protein Ligand, Stress-Inducible Phosphoprotein 1, Regulates Amyloid-␤ Oligomer Toxicity Valeriy G.
The structure of the LCR hydrogel had characteristics of cross-β-amyloids, but, because of the reversibility and dynamism, was not nearly as stable to SDS denaturation as the yeast prion-like fibril tested.