Journal article
The Dependence of Amyloid‐β Dynamics on Protein Force Fields and Water Models
We studied the dynamics of Aβ40, involved in Alzheimer's disease, by using 21 methods combined from Amber03, Amber99sb‐ILDN, Charmm27, Charmm22*, OPLS‐2001, OPLS‐2006, OPLS‐2008, Gromos96‐43a1, Gromos96‐53a6, Gromos96‐54a7, and the water models SPC, TIP3P, TIP4P. Major differences in the structural ensembles were systematized: Amber03, Charmm27, and Gromos96‐54a7 stabilize the helices; Gromos96‐43a1 and Gromos53a6 favor the β‐strands (with Charmm22* and Amber99sb‐ILDN in between), and OPLS produces unstructured ensembles.
The accuracy of the NMR chemical shifts was in the order: Charmm22*>Amber99sb‐ILDN>OPLS‐2008≈Gromos96‐43a1>Gromos96‐54a7≈OPLS‐2001>OPLS‐2006>Gromos96‐53a6>Charmm27>Amber03. The computed 3JHNHα‐coupling constants were sensitive to experiment type and Karplus parameterization. Overall, the ensembles of Charmm22* and Amber99sb‐ILDN provided the best agreement with experimental NMR and circular dichroism data, providing a model for the real Aβ monomer ensemble.
Also, the polar water model TIP3P significantly favored helix and compact conformations.
Language: | English |
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Year: | 2015 |
Pages: | 3278-3289 |
ISSN: | 14394235 and 14397641 |
Types: | Journal article |
DOI: | 10.1002/cphc.201500415 |
ORCIDs: | Kepp, Kasper Planeta |