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Search name	Searched On	Run search
[in Journal: Journal of Computational Biophysics and Chemistry] AND [Keyword: GPU] (1)	15 Apr 2025	Run
[in Journal: Journal of Circuits, Systems and Computers] AND [Keyword: GPU] (1)	15 Apr 2025	Run
[in Journal: International Journal of Computational Methods] AND [Keyword: FVM] (1)	15 Apr 2025	Run
[in Journal: The American Journal of Chinese Medicine] AND [Keyword: FCM] (1)	15 Apr 2025	Run
[in Journal: Modern Physics Letters B] AND [Keyword: FCM] (1)	15 Apr 2025	Run

articleNo Access
MOLECULAR DYNAMICS SIMULATIONS OF HELIX BUNDLE PROTEINS USING UNRES FORCE FIELD AND ALL-ATOM FORCE FIELD
- KAIFU GAO and
- MINGHUI YANG
Journal of Theoretical and Computational Chemistry01 Dec 2012
Preview Abstract
We have investigated the folding of two helix-bundle proteins, 36-residue Villin headpiece and 56-residue E-domain of Staphylococcal protein A, by combining molecular dynamics (MD) simulations with Coarse-Grained United-Residue (UNRES) Force Field and all-atom force field. Starting from extended structures, each of the proteins was folded to a stable structure within a short time frame using the UNRES model. However, the secondary structures of helices were not well formed. Further refinement using MD simulations with the all-atom force field was able to fold the protein structure into the native-like state with the smallest main-chain root-mean-square deviation of around 3 Å. Detailed analysis of the folding trajectories was presented and the performance of GPU-based MD simulations was also discussed.

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