Molecular Dynamics as a pattern recognition tool: An automated process detects peptides that preserve the 3D arrangement of Trypsinʹs Active Site Original Research Article

Recently, the synthesis of a molecule has been reported that belongs to a Lysine based, branched cyclic peptide class. This work explores the ability of such molecules to preserve the 3D geometry of the Trypsinʹs Active Site (TAS) by applying an integrated framework of automated computer procedures. The following four factors a) D/L chirality, b) different amino acids at different positions of the molecular scaffoldʹs cyclic part, c) the application of AMBER and CHARMM force fields and d) different implicit solvation models were evaluated against TAS similarity. It was found that a number of molecules exhibit satisfactory geometric affinity to the TAS during extended Molecular Dynamics runs. We estimated that more than 2000 molecules (belonging to this class) could retain good similarity to the TAS arrangement.