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CSB
2005
IEEE
2005
IEEE
Multi-Scale Hierarchical Structure Prediction of Helical Transmembrane Proteins
As the first step toward a multi-scale, hierarchical computational approach for membrane protein structure prediction, the packing of transmembrane helices was modeled at the residual and atomistic levels, respectively. For predictions at the residual level, the helix-helix and helix-lipid interactions were described by a set of knowledge-based energy functions. For predictions at the atomistic level, CHARMM19 force field was employed. To facilitate the system to overcome energy barriers, Wang-Landau sampling was carried out by performing a random walk in the energy and conformational spaces. Nativelike structures were predicted at both levels for 2- and 7-helix systems. Interestingly, consistent results were obtained from simulations at residual and atomistic levels for the same system, strongly suggesting the feasibility of a hierarchical approach for membrane structure prediction.
Real-time TrafficAtomistic Levels | Bioinformatics | CSB 2005 | Hierarchical Computational Approach | Structure Prediction |
| Added | 24 Jun 2010 |
| Updated | 24 Jun 2010 |
| Type | Conference |
| Year | 2005 |
| Where | CSB |
| Authors | Zhong Chen, Ying Xu |
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