Cryo-EM structure of a human prion fibril with a hydrophobic, protease-resistant core

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作者
Calina Glynn
Michael R. Sawaya
Peng Ge
Marcus Gallagher-Jones
Connor W. Short
Ronquiajah Bowman
Marcin Apostol
Z. Hong Zhou
David S. Eisenberg
Jose A. Rodriguez
机构
[1] University of California,Department of Chemistry and Biochemistry; UCLA
[2] Los Angeles,DOE Institute for Genomics and Proteomics; STROBE, NSF Science and Technology Center
[3] UCLA-DOE Institute for Genomics and Proteomics,Department of Biological Chemistry and Department of Chemistry and Biochemistry
[4] Howard Hughes Medical Institute,California NanoSystems Institute
[5] University of California Los Angeles,Department of Microbiology Immunology and Molecular Genetics
[6] University of California Los Angeles,undefined
[7] University of California Los Angeles,undefined
[8] ADRx,undefined
来源
Nature Structural & Molecular Biology | 2020年 / 27卷
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摘要
Self-templating assemblies of the human prion protein are clinically associated with transmissible spongiform encephalopathies. Here we present the cryo-EM structure of a denaturant- and protease-resistant fibril formed in vitro spontaneously by a 9.7-kDa unglycosylated fragment of the human prion protein. This human prion fibril contains two protofilaments intertwined with screw symmetry and linked by a tightly packed hydrophobic interface. Each protofilament consists of an extended beta arch formed by residues 106 to 145 of the prion protein, a hydrophobic and highly fibrillogenic disease-associated segment. Such structures of prion polymorphs serve as blueprints on which to evaluate the potential impact of sequence variants on prion disease.
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页码:417 / 423
页数:6
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