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Protein-protein and Protein- ligand Docking The geometric filtering.

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Presentation on theme: "Protein-protein and Protein- ligand Docking The geometric filtering."— Presentation transcript:

1 Protein-protein and Protein- ligand Docking The geometric filtering

2 Shape Complementarity

3 Geometric Docking Algorithms Based on the assumption of shape complementarity between the participating molecules. Molecular surface complementarity - protein- protein, protein-ligand, (protein - drug). Hydrogen donor/acceptor complementarity - protein-drug. Remark : usually “protein” here can be replaced by “DNA” or “RNA” as well.

4 Issues to be examined when evaluating docking methods Rigid docking vs Flexible docking : If the method allows flexibility: Is flexibility allowed for ligand only, receptor only or both ? No. of flexible bonds allowed and the cost of adding additional flexibility. Does the method require prior knowledge of the active site ? Performance in “unbound” docking experiments. Speed - ability to explore large libraries.

5 General Algorithm outline Calculate the molecular surface of the receptor and the ligands and their interest points (+ normals). Match the interest points and recover candidate transformations. Check for inter-molecule and intra-molecule penetrations and score the amount of contact. Rank by geom-score/energies.

6 Shape feature and signature (Norel et al.)

7 Unbound docking examples

8 GGH based flexible docking Applies either to flexible ligands or to flexible receptors.

9 Flexible Docking Calmodulin with M13 ligand

10 Flexible Docking HIV Protease Inhibitor

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