Distinguish protein decoys by Using a scoring function based on a new AMBER force field, short molecular dynamics simulations, and the generalized born solvent model

Autor:	Mathew C. Lee, Yong Duan
Rok vydání:	2004
Předmět:	Physics Protein Folding Protein Conformation Computational Biology Energy minimization Biochemistry Force field (chemistry) Molecular dynamics Models Chemical Structural Biology Computational chemistry Solvents Native protein Computer Simulation Statistical physics Databases Protein Decoy Molecular Biology
Zdroj:	Proteins: Structure, Function, and Bioinformatics. 55:620-634
ISSN:	0887-3585
DOI:	10.1002/prot.10470
Popis:	Recent works have shown the ability of physics-based potentials (e.g., CHARMM and OPLS-AA) and energy minimization to differentiate the native protein structures from large ensemble of non-native structures. In this study, we extended previous work by other authors and developed an energy scoring function using a new set of AMBER parameters (also recently developed in our laboratory) in conjunction with molecular dynamics and the Generalized Born solvent model. We evaluated the performance of our new scoring function by examining its ability to distinguish between the native and decoy protein structures. Here we present a systematic comparison of our results with those obtained with use of other physics-based potentials by previous authors. A total of 7 decoy sets, 117 protein sequences, and more than 41,000 structures were evaluated. The results of our study showed that our new scoring function represents a significant improvement over previously published physics-based scoring functions.
Databáze:	OpenAIRE
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