期刊
JOURNAL OF COMPUTATIONAL CHEMISTRY
卷 30, 期 4, 页码 621-630出版社
WILEY
DOI: 10.1002/jcc.21085
关键词
structure prediction; amyloid; Alzheimer's islet amyloid polypeptide; insulin; beta-2-microglobulin; Monte Carlo simulations
资金
- Biotechnological and Biological Sciences Research Council
Cross-beta amyloid is implicated in over 20 human diseases. Experiments suggest that specific sequence elements within amyloidogenic proteins play a major role in seeding amyloid formation. Identifying these seeding sequences is important for rationalizing the molecular mechanisms of amyloid formation and for elaborating therapeutic strategies that target amyloid. Theoretical techniques play an important role in facilitating the identification and structural characterization of putative seeding sequences;. most amyloid species are not amenable to high resolution experimental structure techniques. In this study we have combined a coarse-grained physicochemical protein model with a highly efficient Monte Carlo sampling technique to identify amyloidogenic sequences in four proteins for which respective experimental peptide fragmentation data exist. Peptide sequences were defined as amyloidogenic if the ensemble structure predicted for three interacting peptides described a stable and regular three-stranded beta-sheet. For such peptides, free energies were calculated to provide a Measure of amyloid propensity. The overall agreement between the experimental and predicted data is good, and we correctly identify several self-recognition motifs proposed to define the cross-beta amyloid fibril architectures of two of the proteins. Our results compare verb favorably with those obtained using atomistic molecular dynamics methods, though our simulations are 30-40 times faster.
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