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Evolution of large Aβ16-22 aggregates at atomic details and potential of mean force associated to peptide unbinding and fragmentation events
A. Iorio, Š. Timr, L. Chiodo, P. Derreumaux, F. Sterpone
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't
PubMed
37139594
DOI
10.1002/prot.26500
Knihovny.cz E-resources
- MeSH
- Amyloid chemistry MeSH
- Amyloid beta-Peptides * chemistry MeSH
- Protein Conformation, beta-Strand MeSH
- Peptide Fragments chemistry MeSH
- Solvents chemistry MeSH
- Molecular Dynamics Simulation * MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
Atomic characterization of large nonfibrillar aggregates of amyloid polypeptides cannot be determined by experimental means. Starting from β-rich aggregates of Y and elongated topologies predicted by coarse-grained simulations and consisting of more than 100 Aβ16-22 peptides, we performed atomistic molecular dynamics (MD), replica exchange with solute scaling (REST2), and umbrella sampling simulations using the CHARMM36m force field in explicit solvent. Here, we explored the dynamics within 3 μs, the free energy landscape, and the potential of mean force associated with either the unbinding of one single peptide in different configurations within the aggregate or fragmentation events of a large number of peptides. Within the time scale of MD and REST2, we find that the aggregates experience slow global conformational plasticity, and remain essentially random coil though we observe slow beta-strand structuring with a dominance of antiparallel beta-sheets over parallel beta-sheets. Enhanced REST2 simulation is able to capture fragmentation events, and the free energy of fragmentation of a large block of peptides is found to be similar to the free energy associated with fibril depolymerization by one chain for longer Aβ sequences.
Institut de Biologie Physico Chimique Fondation Edmond de Rothschild Paris France
Institut Universitaire de France Paris France
J Heyrovský Institute of Physical Chemistry Czech Academy of Sciences Prague Czech Republic
Laboratoire de Biochimie Théorique CNRS Université Paris Cité Paris France
References provided by Crossref.org
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