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Determination of the Most Stable Packing of Peptides From Ribosomal S1 Protein, Protein Bgl2p and Abeta peptide in beta-layers during Molecular Dynamics Simulationsстатья
- Авторы: Glyakina A.V., Balabaev N.K., Galzitskaya O.V.
- Сборник: Computer Simulations of Aggregation of Proteins and Peptides
- Серия: Methods in molecular biology (Clifton, N.J.)
- Том: 2340
- Год издания: 2021
- Место издания: Springer
- Первая страница: 221
- Последняя страница: 233
- DOI: 10.1007/978-1-0716-1546-1_11
- Аннотация: Our task was to determine the most stable packing of peptides in β-layers to construct an oligomer structure for fibril growth. The β-layers consisting of eight short peptides with the amino acid sequences IVRGVVVAID, VDSWNVLVAG (VESWNVLVAG), KLVFFAEDVG, and IIGLMVGGVV were built. These sequences correspond to the amyloidogenic regions of ribosomal S1 protein from E. coli, protein glucantransferase Bgl2p from the yeast cell wall, and Aβ peptide. First, the amyloidogenic regions were predicted theoretically, and then were confirmed experimentally. Four β-layers with different orientation of the peptides in the layers and the layers relative to each other were constructed. To determine the most stable packing of β-strands, the molecular dynamic (MD) simulations in explicit water were carried out. Two charge states (pH3 and pH5) for each β-layer were considered. The fraction of the secondary structure was a measure of stability for β-layers. β-Layers, in which β-strands are antiparallel relative to each other, were the most stable. Using this packing for β-strands, we constructed the oligomer structures and also checked their stability by using MD simulations.
- Добавил в систему: Галзитская Оксана Валериановна