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PUMPKIN Ideas Objectives Development and application of methods to: Model the dynamics of domain motion in large proteins Incorporate experimental data such as point mutation results in a protein domain model Improved understanding of the structure and function of P-type ATPases The Time Scale Obstacle Pump reaction cycle => ms time scale CG MD => only μs time scale Even coarser formalism needed! Implicit Solvent Nature Letter 2007 Reynwar et al. Max Planck Institute, Mainz Protein Domain Model Sarcoplasmic reticulum Ca2+-ATPase (SERCA) Chemical Grid Rigid but soft – use knowledge from SERCA Lipid model Resolution /Å 3 4 5 6 13-10 11-8 9-6 7-4 Flexible Chemical Grid Every amino acid or functional group has a degree of hydrophobicity assigned e.g. from 0 – 1 The overall hydrophobicity of the grid-point-area is found 0-0.3 => hydrophilic grid point 0.3-0.7 => both hydrophobic and hydrophilic 0.7-1 => hydrophobic grid point Electrostatics: The overall charge of the grid-point-area is used? Special Challenges Sometimes single waters are relevant... Typically ions are involved.... Bonds are broken and formed... Point mutations.... Points / amino acids of known importance... Build Protocol Yes AA struct. known? No Model ready for simulation e.g. X-ray pdb Remove everything but the protein. Prep protein. Known domains? e.g. pdb with coors for Cα No Add lipid bilayer and other molecules such as ions, ATP, water... Protocol that tests and suggests how domains could be defined. Yes Define domains from resids like e.g. D1 8-20, 40-52, ..... D2 23-32, 60-84, ..... ......... Generate surface grid for every domain and linkers. Make sure that important spots have the right chemistry and modify manually if necessary. Assign every grid point a chemical class. Work Plan Modelling Recruit - studies physicist, computer with AA, CG scientist, and the current version of the protein domain model. mathematician? Develop a protein domain model and make it * To increase the understanding of the system work with the lipid model in a MD framework. Refine the protein domain model * To collect data at a higher resolution levels for improve accuracythe protein domain model testing and forming * allow for description of various detailed chemistry Together withmodel Birgit’stogroup Generalize other proteins with domain motion Input Comments to these ideas? Other ideas for projects? Expectations?
