The structure of amyloid fibrils of the HET-s (218-289) prion as seen by solid-state NMR

Meier, Beat

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Playlist
Slides
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Citation

Introduction
30 min
1. Prions and amyloids: introduction
- Prof. Reed Wickner
Mammalian Prions
26 min
2. Transgenic mouse models of prion diseases
- Prof. Glenn Telling
31 min
3. Mechanism of prion generation in vitro
- Dr. Surachai Supattapone
Non-Prion Amyloids
48 min
4. Similarities between prion diseases and other neurodegenerative diseases
- Prof. John Hardy
43 min
5. Molecular structure of amyloid and prion fibrils: insights from solid state NMR
- Dr. Robert Tycko
Yeast Prions
42 min
6. Chaperones and prions
- Prof. Yury Chernoff
Beneficial Amyloids
52 min
7. The dark side of amyloid: PMEL, a natural amyloid in melanosome biogenesis
- Prof. Michael Marks
Archived Lectures *These may not cover the latest advances in the field
41 min
8. Predicting TSE transmission
- Prof. Jean Manson
53 min
9. Generation and propagation of infectious prions by cyclic amplification of protein misfolding
- Prof. Claudio Soto
30 min
10. Yeast and fungal prions: a help or a hindrance?
- Prof. Reed Wickner
42 min
11. [PIN+]: prions beget prions
- Prof. Susan Liebman
36 min
12. Yeast prions and protein chaperones
- Dr. Daniel Masison
54 min
13. Mechanisms of yeast prion propagation
- Prof. Mick Tuite
31 min
14. Propagation and variability of the yeast [PSI+] prion
- Prof. Michael Ter-Avanesyan
43 min
15. The genetics and biology of the [Het-s] prion of Podospora
- Prof. Sven Saupe
33 min
16. The structure of amyloid fibrils of the HET-s (218-289) prion as seen by solid-state NMR
- Prof. Beat Meier

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Introduction
Topics
Prion hypothesis
Prions can form amyloids
Amyloids (1)
Amyloids (2)
Amyloids (3)
Characteristic fiber diffraction patterns
Solid-state NMR can characterize amyloid fibrils
Structure determination by NMR and X-ray
Distance info in NMR correlation spectra
Obtaining sufficient resolution in solid state
Atomic-resolution structure determination by NMR
Obtain 3D structures from solid samples
Several protein structures solved de novo by NMR
Heterogeneous samples can not give narrow lines
Heterogeneous samples can give narrow lines
Comparison of carbon spectra
Structure determination possible
Nevertheless amyloids are different
Isotopic labelling allows to disentangle the problem
HET-s: a functional prion
The flexible tail forms fibrils
Structural information about HET-s (218-289) (1)
Structural information about HET-s (218-289) (2)
Chemical shift assignment
To go further, we need distance restraints
Distance restraints for protein fibrils
Intramolecular restraints (1)
Intramolecular restraints (2)
Structure calculation
Structural features of the fibrils
Fibrils contain a triangular hydrophobic core
HET-s(218-289) (1)
Overall shape and hydrophobic core
Structure stabilized by
Structure explains NMR spectra
Hydrogen bonds
HET-s(218-289) (2)
Comparison with globular proteins
Outlook
Acknowledgement

Topics Covered

3D structure is important
Prion hypothesis
Prions can form amyloids
Amyloids
Cross-beta arrangements give characteristic fiber diffraction patterns
Solid-state NMR can characterize amyloid fibrils
Atomic-resolution structure determination by NMR and x-ray
Distance information in NMR correlation spectra
The methodology to obtain 3D structures from solid (microcrystalline) samples has recently been developed
Structure determination is possible
Nevertheless, amyloids are different
Isotopic labeling allows to disentangle the intra/inter problem
HET-s: a functional prion
Structural information about HET-s (218-289) from earlier measurements
Chemical shift assignment
To go further we need distance restraints
Distance restraints for protein fibrils
Intramolecular restraints
Structure calculation
Structural features of the fibrils
Comparison with globular proteins

Links

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Prions and Amyloids

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Talk Citation

Meier, B. (2008, September 4). The structure of amyloid fibrils of the HET-s (218-289) prion as seen by solid-state NMR [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 22, 2024, from https://doi.org/10.69645/LGFT7082.
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