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2.2 Å Cryo-EM Tetra-Protofilament Structure of the Hamster Prion 108–144 Fibril Reveals an Ordered Water Channel in the Center

Hsin‐Liang Chen, Hsi-Wen Kao, Chih‐Hsuan Lee, Jessica Y. C. Huang, Kuen‐Phon Wu, Rita P.‐Y. Chen

2022Journal of the American Chemical Society15 citationsDOI

Abstract

Fibrils of the hamster prion peptide (sHaPrP, sequence 108-144) were prepared in an acidic solution, and their structure was solved by cryogenic electron microscopy with a resolution of 2.23 Å based on the gold-standard Fourier shell correlation (FSC) curve. The fibril has a novel architecture that has never been found in other amyloid fibrils. Each fibril is assembled by four protofilaments (PFs) and has an ordered water channel in the center. Each protofilament contains three β-strands (125-130, 133-135, and 138-141) arranged in an "R"-shaped construct. The structural data indicate that these three β-strand segments are the most amyloidogenic region of the prion peptide/protein and might be the site of nucleation during fibrillization under conditions without denaturants.

Topics & Concepts

ChemistryTetraFibrilHamsterChannel (broadcasting)Center (category theory)Prion proteinAmyloid fibrilCrystallographyBiophysicsBiochemistryAmyloid βMolecular biologyTelecommunicationsMedicinal chemistryDiseaseMedicineComputer sciencePathologyBiologyPrion Diseases and Protein MisfoldingRNA regulation and diseasePorphyrin Metabolism and Disorders
2.2 Å Cryo-EM Tetra-Protofilament Structure of the Hamster Prion 108–144 Fibril Reveals an Ordered Water Channel in the Center | Litcius