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Journal of Molecular Biology
|
July 5, 2021
On the Structural Diversity and Individuality of Polymorphic Amyloid Protein Assemblies
Liisa Lutter, Liam D Aubrey, Wei-Feng Xue
Biochimica Et Biophysica Acta. Proteins and Proteomics
|
July 29, 2019
The molecular lifecycle of amyloid - Mechanism of assembly, mesoscopic organisation, polymorphism, suprastructures, and biological consequences
Liisa Lutter, Christopher J Serpell, Mick F Tuite, et al.
Biomolecular Concepts
|
May 7, 2020
Three-dimensional reconstruction of individual helical nano-filament structures from atomic force microscopy topographs
Liisa Lutter, Christopher J Serpell, Mick F Tuite, et al.
Nanoscale
|
February 17, 2026
The supramolecular architecture of amyloid fibrils formed by a human tau-derived hexapeptide VQIVYK
Irene Del Mar Fariñas Lucas, Youssra K Al-Hilaly, Liisa Lutter, et al.
Communications Chemistry
|
November 19, 2025
Structural reconstruction of individual filaments in Aβ<sub>42</sub> fibril populations assembled in vitro reveal rare species that resemble ex vivo amyloid polymorphs from human brains
Liam D Aubrey, Liisa Lutter, Kate Fennell, et al.
Journal of Molecular Biology
|
January 25, 2022
Structural Identification of Individual Helical Amyloid Filaments by Integration of Cryo-Electron Microscopy-Derived Maps in Comparative Morphometric Atomic Force Microscopy Image Analysis
Liisa Lutter, Youssra K Al-Hilaly, Christopher J Serpell, et al.
Communications Chemistry
|
January 27, 2023
Quantification of amyloid fibril polymorphism by nano-morphometry reveals the individuality of filament assembly
Liam D Aubrey, Ben J F Blakeman, Liisa Lutter, et al.
Methods in Molecular Biology (Clifton, N.J.)
|
October 31, 2022
An Additive-Free Model for Tau Self-Assembly
Youssra K Al-Hilaly, Karen E Marshall, Liisa Lutter, et al.
FEBS Letters
|
November 14, 2019
Tau (297-391) forms filaments that structurally mimic the core of paired helical filaments in Alzheimer's disease brain
Youssra K Al-Hilaly, Bronwen E Foster, Luca Biasetti, et al.
Research Square
|
May 20, 2024
How short peptides can disassemble ultra-stable tau fibrils extracted from Alzheimer's disease brain by a strain-relief mechanism
David Eisenberg, Ke Hou, Peng Ge, et al.
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Search research articles
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Showing results (1-10 of 13) with videos related to
Sort By:
Page
of 2
Journal of Molecular Biology
|
July 5, 2021
On the Structural Diversity and Individuality of Polymorphic Amyloid Protein Assemblies
Liisa Lutter, Liam D Aubrey, Wei-Feng Xue
Biochimica Et Biophysica Acta. Proteins and Proteomics
|
July 29, 2019
The molecular lifecycle of amyloid - Mechanism of assembly, mesoscopic organisation, polymorphism, suprastructures, and biological consequences
Liisa Lutter, Christopher J Serpell, Mick F Tuite, et al.
Biomolecular Concepts
|
May 7, 2020
Three-dimensional reconstruction of individual helical nano-filament structures from atomic force microscopy topographs
Liisa Lutter, Christopher J Serpell, Mick F Tuite, et al.
Nanoscale
|
February 17, 2026
The supramolecular architecture of amyloid fibrils formed by a human tau-derived hexapeptide VQIVYK
Irene Del Mar Fariñas Lucas, Youssra K Al-Hilaly, Liisa Lutter, et al.
Communications Chemistry
|
November 19, 2025
Structural reconstruction of individual filaments in Aβ<sub>42</sub> fibril populations assembled in vitro reveal rare species that resemble ex vivo amyloid polymorphs from human brains
Liam D Aubrey, Liisa Lutter, Kate Fennell, et al.
Journal of Molecular Biology
|
January 25, 2022
Structural Identification of Individual Helical Amyloid Filaments by Integration of Cryo-Electron Microscopy-Derived Maps in Comparative Morphometric Atomic Force Microscopy Image Analysis
Liisa Lutter, Youssra K Al-Hilaly, Christopher J Serpell, et al.
Communications Chemistry
|
January 27, 2023
Quantification of amyloid fibril polymorphism by nano-morphometry reveals the individuality of filament assembly
Liam D Aubrey, Ben J F Blakeman, Liisa Lutter, et al.
Methods in Molecular Biology (Clifton, N.J.)
|
October 31, 2022
An Additive-Free Model for Tau Self-Assembly
Youssra K Al-Hilaly, Karen E Marshall, Liisa Lutter, et al.
FEBS Letters
|
November 14, 2019
Tau (297-391) forms filaments that structurally mimic the core of paired helical filaments in Alzheimer's disease brain
Youssra K Al-Hilaly, Bronwen E Foster, Luca Biasetti, et al.
Research Square
|
May 20, 2024
How short peptides can disassemble ultra-stable tau fibrils extracted from Alzheimer's disease brain by a strain-relief mechanism
David Eisenberg, Ke Hou, Peng Ge, et al.
Page
of 2