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S. Vajda, 2005 Computational mapping of proteins for fragment based drug design Sandor Vajda, Spencer Thiel, Michael Silberstein, Melissa Landon, and David.

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Presentation on theme: "S. Vajda, 2005 Computational mapping of proteins for fragment based drug design Sandor Vajda, Spencer Thiel, Michael Silberstein, Melissa Landon, and David."— Presentation transcript:

1 S. Vajda, 2005 Computational mapping of proteins for fragment based drug design Sandor Vajda, Spencer Thiel, Michael Silberstein, Melissa Landon, and David Lancia Boston University, Boston, MA & SolMap Pharmaceuticals, Cambridge MA

2 S. Vajda, 2005 Dennis, S., Kortvelyesi T., and Vajda. S. Computational mapping identifies the binding sites of organic solvents on proteins. Proc. Natl. Acad. Sci. USA., 99: 4290-4295, 2002. Silberstein, M., Dennis, S., Brown III, L., Kortvelyesi, T., Clodfelter, K., and Vajda, S. Identification of substrate binding sites in enzymes by computational solvent mapping, J. Molec. Biol. 332, 1095-1113, 2003. Mattos C, Ringe D: Locating and characterizing binding sites on proteins. Nat. Biotechnol. (1996) 14(5):595-599. Hajduk PJ, Huth JR, Fesik SW: Druggability indices for protein targets derived from NMR-based screening data. J Med Chem (2005) 48(7):2518-2525. Small molecule binding druggability of the binding site

3 S. Vajda, 2005 Computational Mapping Step 1: Placing the probes

4 S. Vajda, 2005 Step 2: Move the probes around to find binding positions

5 S. Vajda, 2005 Step 3: Remove high energy clusters of the ligand

6 S. Vajda, 2005 Step 4: Repeat mapping with a number of fragments

7 S. Vajda, 2005 Step 5: Combine fragment into potential ligand molecules

8 S. Vajda, 2005 Why does CS-Map give better results than earlier methods ? Properties: Improved sampling of the regions of interest A scoring potential that accounts for desolvation Clusters are ranked, not individual conformations Consensus site: The binding of different solvents reduces the probability of finding false positives Comparison to: Geometric: Flood-fill, PASS Energetic: QsiteFinder, PocketFinder Mapping/Docking: GRID, MCSS

9 S. Vajda, 2005 Comparison of the Locus technology with Computational Solvent Mapping PropertyComputational Solvent Mapping Locus Core Technology Sampling methodMultistart nonlinear simplex, off-grid Grand Canonical Monte Carlo on a grid Solvation representation Continuum Electrostatics (GBSA) None; simulations in water are run separately, and water-filled sites are removed Binding free energy evaluation Empirical (no configurational entropy) For gas-phase within the accuracy limits of the Grand Canonical Monte Carlo sampling Criterion for retaining a probe Low Boltzmann-averaged free energy of the corresponding probe clusters Probe remains bound to the protein after transition from liquid to gas phase Predicted druggable binding sites Consensus sites CPU timeAbout 1 hourAbout 7 days

10 S. Vajda, 2005 Unbound structure Structure with farglitazar (1fm9) C2 C1 P2 P3 P4 C2 C1 E1 P1 P3 P4 E2 Structure and “hot spots” of PPAR- 

11 S. Vajda, 2005 Structure and “hot spots” of PPAR-  H12 Sheu, S-H., Kaya, T., Waxman D. J., and Vajda, S. Exploring the binding site structure of the PPAR-g ligand binding domain by computational solvent mapping. Biochemistry, 44, 1193-1209, 2005.

12 S. Vajda, 2005 Current work: A prototype fragment library

13 S. Vajda, 2005 Credits Poster: Hot spots in the binding site of renin Vajda, S. and Guarnieri, F. Characterization of protein-ligand interaction sites using experimental and computational methods. Current Opinion in Drug Design and Development. In press (May 2006). Dr. Sheldon Dennis Dr. Tamas Kortvelyesi Shu-Hsien Sheu Karl Clodfelter Dr. Dagmar Ringe (Brandeis University) National Institute of Health National Institute of Environmental Health National Science Foundation SolMap Pharmaceuticals, Inc.

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