Structural identification of an HER2 receptor model binding pocket to optimize lead compounds: a combined experimental and computational approach(392 views) Langella E, Calce E, Saviano M, De Luca S
Mol Biosyst (ISSN: 1742-206x), 2016 Jun 21; 12(7): 2159-2167.
Institute of Biostructures and Bioimaging, National Research Council, Via Mezzocannone 16, 80134 Naples, Italy. stefania.deluca@cnr.it., Institute of Crystallography, National Research Council, Via Amendola 122/O, 70126 Bari, Italy. msaviano@unina.it.,
References: Not available.
Structural identification of an HER2 receptor model binding pocket to optimize lead compounds: a combined experimental and computational approach
The structural investigation of the ligand/target interactions represents a challenging task in the field of drug discovery or lead compound optimization. In the present study, a computational approach allowed the identification of the binding site of A9 peptide, within a synthetic model of HER2 receptor (HER2-DIVMP). To this aim, molecular docking calculations and molecular dynamics simulations were employed, taking into account experimental data obtained by fluorescence studies. The computational model was further validated by performing fluorescence binding studies between the ligand A9 and HER2-DIVMP mutants, prepared by replacing key amino acid residues. A new binding pocket of HER2-DIVMP was identified, which could be fruitfully exploited for future lead-optimization studies.
Structural identification of an HER2 receptor model binding pocket to optimize lead compounds: a combined experimental and computational approach
Aloj L, Aurilio M, Rinaldi V, D'Ambrosio L, Tesauro D, Peitl PK, Maina T, Mansi R, Von Guggenberg E, Joosten L, Sosabowski JK, Breeman WA, De Blois E, Koelewijn S, Melis M, Waser B, Beetschen K, Reubi JC, De Jong M * The EEE project(532 views) Proc Int Cosm Ray Conf Icrc Universidad Nacional Autonoma De Mexico, 2007; 5(HEPART2): 977-980. Impact Factor:0 ViewExport to BibTeXExport to EndNote