The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy

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The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy. / Langkilde, Annette Eva; Morris, Kyle L; Serpell, Louise C; Svergun, Dmitri I; Vestergaard, Bente.

I: Acta crystallographica. Section D, Biological crystallography, Bind 71, Nr. Pt 4, 04.2015, s. 882-95.

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

Harvard

Langkilde, AE, Morris, KL, Serpell, LC, Svergun, DI & Vestergaard, B 2015, 'The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy', Acta crystallographica. Section D, Biological crystallography, bind 71, nr. Pt 4, s. 882-95. https://doi.org/10.1107/S1399004715001674

APA

Langkilde, A. E., Morris, K. L., Serpell, L. C., Svergun, D. I., & Vestergaard, B. (2015). The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy. Acta crystallographica. Section D, Biological crystallography, 71(Pt 4), 882-95. https://doi.org/10.1107/S1399004715001674

Vancouver

Langkilde AE, Morris KL, Serpell LC, Svergun DI, Vestergaard B. The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy. Acta crystallographica. Section D, Biological crystallography. 2015 apr.;71(Pt 4):882-95. https://doi.org/10.1107/S1399004715001674

Author

Langkilde, Annette Eva ; Morris, Kyle L ; Serpell, Louise C ; Svergun, Dmitri I ; Vestergaard, Bente. / The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy. I: Acta crystallographica. Section D, Biological crystallography. 2015 ; Bind 71, Nr. Pt 4. s. 882-95.

Bibtex

@article{ca68a61011c64e8b926f5b734ef40fcb,
title = "The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy",
abstract = "Structural analysis of protein fibrillation is inherently challenging. Given the crucial role of fibrils in amyloid diseases, method advancement is urgently needed. A hybrid modelling approach is presented enabling detailed analysis of a highly ordered and hierarchically organized fibril of the GNNQQNY peptide fragment of a yeast prion protein. Data from small-angle X-ray solution scattering, fibre diffraction and electron microscopy are combined with existing high-resolution X-ray crystallographic structures to investigate the fibrillation process and the hierarchical fibril structure of the peptide fragment. The elongation of these fibrils proceeds without the accumulation of any detectable amount of intermediate oligomeric species, as is otherwise reported for, for example, glucagon, insulin and α-synuclein. Ribbons constituted of linearly arranged protofilaments are formed. An additional hierarchical layer is generated via the pairing of ribbons during fibril maturation. Based on the complementary data, a quasi-atomic resolution model of the protofilament peptide arrangement is suggested. The peptide structure appears in a β-sheet arrangement reminiscent of the β-zipper structures evident from high-resolution crystal structures, with specific differences in the relative peptide orientation. The complexity of protein fibrillation and structure emphasizes the need to use multiple complementary methods.",
author = "Langkilde, {Annette Eva} and Morris, {Kyle L} and Serpell, {Louise C} and Svergun, {Dmitri I} and Bente Vestergaard",
year = "2015",
month = apr,
doi = "10.1107/S1399004715001674",
language = "English",
volume = "71",
pages = "882--95",
journal = "Acta Crystallographica Section D: Structural Biology",
issn = "2059-7983",
publisher = "International Union of Crystallography",
number = "Pt 4",

}

RIS

TY - JOUR

T1 - The architecture of amyloid-like peptide fibrils revealed by X-ray scattering, diffraction and electron microscopy

AU - Langkilde, Annette Eva

AU - Morris, Kyle L

AU - Serpell, Louise C

AU - Svergun, Dmitri I

AU - Vestergaard, Bente

PY - 2015/4

Y1 - 2015/4

N2 - Structural analysis of protein fibrillation is inherently challenging. Given the crucial role of fibrils in amyloid diseases, method advancement is urgently needed. A hybrid modelling approach is presented enabling detailed analysis of a highly ordered and hierarchically organized fibril of the GNNQQNY peptide fragment of a yeast prion protein. Data from small-angle X-ray solution scattering, fibre diffraction and electron microscopy are combined with existing high-resolution X-ray crystallographic structures to investigate the fibrillation process and the hierarchical fibril structure of the peptide fragment. The elongation of these fibrils proceeds without the accumulation of any detectable amount of intermediate oligomeric species, as is otherwise reported for, for example, glucagon, insulin and α-synuclein. Ribbons constituted of linearly arranged protofilaments are formed. An additional hierarchical layer is generated via the pairing of ribbons during fibril maturation. Based on the complementary data, a quasi-atomic resolution model of the protofilament peptide arrangement is suggested. The peptide structure appears in a β-sheet arrangement reminiscent of the β-zipper structures evident from high-resolution crystal structures, with specific differences in the relative peptide orientation. The complexity of protein fibrillation and structure emphasizes the need to use multiple complementary methods.

AB - Structural analysis of protein fibrillation is inherently challenging. Given the crucial role of fibrils in amyloid diseases, method advancement is urgently needed. A hybrid modelling approach is presented enabling detailed analysis of a highly ordered and hierarchically organized fibril of the GNNQQNY peptide fragment of a yeast prion protein. Data from small-angle X-ray solution scattering, fibre diffraction and electron microscopy are combined with existing high-resolution X-ray crystallographic structures to investigate the fibrillation process and the hierarchical fibril structure of the peptide fragment. The elongation of these fibrils proceeds without the accumulation of any detectable amount of intermediate oligomeric species, as is otherwise reported for, for example, glucagon, insulin and α-synuclein. Ribbons constituted of linearly arranged protofilaments are formed. An additional hierarchical layer is generated via the pairing of ribbons during fibril maturation. Based on the complementary data, a quasi-atomic resolution model of the protofilament peptide arrangement is suggested. The peptide structure appears in a β-sheet arrangement reminiscent of the β-zipper structures evident from high-resolution crystal structures, with specific differences in the relative peptide orientation. The complexity of protein fibrillation and structure emphasizes the need to use multiple complementary methods.

U2 - 10.1107/S1399004715001674

DO - 10.1107/S1399004715001674

M3 - Journal article

C2 - 25849399

VL - 71

SP - 882

EP - 895

JO - Acta Crystallographica Section D: Structural Biology

JF - Acta Crystallographica Section D: Structural Biology

SN - 2059-7983

IS - Pt 4

ER -

ID: 135222896