Prediction of Protein—Ligand Interactions. Docking and Scoring: Successes and Gaps

## Abstract Molecular recognition plays a fundamental role in all biological processes, and that is why great efforts have been made to understand and predict protein–ligand interactions. Finding a molecule that can potentially bind to a target protein is particularly essential in drug discovery an

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## Abstract We have developed an iterative knowledge‐based scoring function (ITScore) to describe protein–ligand interactions. Here, we assess ITScore through extensive tests on native structure identification, binding affinity prediction, and virtual database screening. Specifically, ITScore was f

## Abstract Using a novel iterative method, we have developed a knowledge‐based scoring function (ITScore) to predict protein–ligand interactions. The pair potentials for ITScore were derived from a training set of 786 protein–ligand complex structures in the Protein Data Bank. Twenty‐six atom type

The prediction of the structure of the protein–protein complex is of great importance to better understand molecular recognition processes. During systematic protein–protein docking, the surface of a protein molecule is scanned for putative binding sites of a partner protein. The possibility to incl