Atomic structures of amyloid cross-β spines reveal varied steric zippers

Atomic structures of amyloid cross-β spines reveal varied steric zippers

Amyloid fibrils formed from different proteins, each associated with a particular disease, contain a common cross-beta spine. The atomic architecture of a spine, from the fibril-forming segment GNNQQNY of the yeast prion protein Sup35, was recently revealed by X-ray microcrystallography. It is a pai...

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Published in:Nature (London) Vol. 447; no. 7143; pp. 453 - 457
Main Authors: SAWAYA, Michael R, SAMBASHIVAN, Shilpa, MADSEN, Anders Ø, RIEKEL, Christian, EISENBERG, David, NELSON, Rebecca, IVANOVA, Magdalena I, SIEVERS, Stuart A, APOSTOL, Marcin I, THOMPSON, Michael J, BALBIRNIE, Melinda, WILTZIUS, Jed J. W, MCFARLANE, Heather T
Format: Journal Article
Language:English
Published: London Nature Publishing 24-05-2007
Nature Publishing Group
Subjects:
Amino Acid Sequence
Amyloid - chemistry
Biological and medical sciences
Crystallization
Fundamental and applied biological sciences. Psychology
Models, Molecular
Molecular biophysics
Peptide Fragments - chemistry
Prions - chemistry
Protein Conformation
Structure in molecular biology
Tridimensional structure
Three dimensional structure
Amyloid
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Summary:Amyloid fibrils formed from different proteins, each associated with a particular disease, contain a common cross-beta spine. The atomic architecture of a spine, from the fibril-forming segment GNNQQNY of the yeast prion protein Sup35, was recently revealed by X-ray microcrystallography. It is a pair of beta-sheets, with the facing side chains of the two sheets interdigitated in a dry 'steric zipper'. Here we report some 30 other segments from fibril-forming proteins that form amyloid-like fibrils, microcrystals, or usually both. These include segments from the Alzheimer's amyloid-beta and tau proteins, the PrP prion protein, insulin, islet amyloid polypeptide (IAPP), lysozyme, myoglobin, alpha-synuclein and beta(2)-microglobulin, suggesting that common structural features are shared by amyloid diseases at the molecular level. Structures of 13 of these microcrystals all reveal steric zippers, but with variations that expand the range of atomic architectures for amyloid-like fibrils and offer an atomic-level hypothesis for the basis of prion strains.
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ISSN:0028-0836
1476-4687
DOI:10.1038/nature05695