The aim of the proposed research is to use computation methods to increase the understanding of the dynamics and function of biomolecules. The essential conformational change in the control protein EFTu will be studied by normal mode analysis and molecular dynamics. All-atom explicit solvent simulations of lysozyme and of structurally related proteins will be performed to explore the origin of the differences in the native state dynamics and in the unfolding behavior. Discontinuous molecular dynamics simulations with simplified protein models will be used to examine the full potential energy surface and dynamics involoved in folding and unfolding. To obtain a deeper understanding of enzyme catalysis, the potential of mean force along the reaction path and the dynamics of the reaction will be calculated for lysozyme, xylose isomerase, hammerhead ribozyme and nitrogenase.
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Kazmierkiewicz, Rajmund; Liwo, Adam; Scheraga, Harold A (2002) Energy-based reconstruction of a protein backbone from its alpha-carbon trace by a Monte-Carlo method. J Comput Chem 23:715-23 |
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Pillardy, J; Arnautova, Y A; Czaplewski, C et al. (2001) Conformation-family Monte Carlo: a new method for crystal structure prediction. Proc Natl Acad Sci U S A 98:12351-6 |
Vila, J A; Ripoll, D R; Scheraga, H A (2001) Influence of lysine content and pH on the stability of alanine-based copolypeptides. Biopolymers 58:235-46 |
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Czaplewski, C; Rodziewicz-Motowidlo, S; Liwo, A et al. (2000) Molecular simulation study of cooperativity in hydrophobic association. Protein Sci 9:1235-45 |
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