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Locating structural energy minima of biological molecules in explicit solvent APS March Meeting Baltimore 2006 Eric Dykeman Otto Sankey Arizona State University.

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Presentation on theme: "Locating structural energy minima of biological molecules in explicit solvent APS March Meeting Baltimore 2006 Eric Dykeman Otto Sankey Arizona State University."— Presentation transcript:

1 Locating structural energy minima of biological molecules in explicit solvent APS March Meeting Baltimore 2006 Eric Dykeman Otto Sankey Arizona State University Department of Physics and Astronomy

2 E Local Minimum Barrier “Structural Energy Minima” Global Minimum One Dimensional Analogy Typically Molecules have many states that are stable corresponding to different folds or configurations of the atoms. The Goal  Locate all possible local minima of the molecule (states) starting from any stable local minimum.

3 Protein Misfolding Diseases Alzheimer's --- Mad Cow --- Type 2 Diabetes All believed to be caused by aggregation of specific peptides Peptides undergo a conformation change These new peptides then form fibril type masses which could be a source of the disease

4 E Soluble State Insoluble State Conformational Change Aggregation Theory Aggregation

5 Possible ways to search for other local minima MD TYPE METHODS Replica Exchange Molecular Dynamics **Reduce barrier analytically * Basic Idea Make Barrier easier to Traverse to a new local minimum During MD Simulation * **

6 Possible ways to search for other local minima ART Developed by Mousseu et.al. * Basic Idea Locate Barriers and Traverse to new local minimum via minimization Activation Relaxation Technique Barriers are located by examining the curvature of the energy hyper surface *

7 Moussue has shown ART to be an effective tool in searching for aggregation states in Alzheimer's Beta Amyloid Peptide * However, ART was originally designed for use with implicit solvation models and we wish to examine the possibility of extending ART to explicit solvent models. * How can ART be generalized?

8 One Idea for extending ART Separate the problem SYSTEM SolvantSolute MDART Maintain Solvent Thermodynamics Search for new molecular minima

9 Example System Alanine Dipeptide CH3-NH-CH3-CO-CH3 Ramachandran Plot of wet-ART predicted minima

10 Summary and Conclusions 1) Solvent adds temporary local minima. This effect may or may not be more pronounced in smaller molecules 2) Currently wet-ART on larger molecules has resulted in an unstable solvent due to molecule clashing with solvent

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