Chelate Effect in Cyclodextrin Dimers: A Computational (MD, MM/PBSA, and MM/GBSA) Study

Citations Over TimeTop 14% of 2006 papers

Abstract

The complexation of an adamantyl-phosphate derivative with one beta-cyclodextrin, with two beta-cyclodextrins, and with two beta-cyclodextrins dimerized with a disulfide bridge was studied by computational methods (MD, MM/PBSA, and MM/GBSA) to analyze and rationalize the chelate effect. Although this effect is usually explained by invoking favorable entropy contribution due to the preorganization of the ligand, it has been determined experimentally that in this case it is enthalpy-driven. The computational results are in accord with this finding, although the entropy contribution due to the solvent structural organization around the complex is crucial for the final estimates of the free energy of complexation.

Related Papers

• → A study of the cyclodextrin complexes of flavonoids by thin layer chromatography(1997)9 cited
• → The effect of α-cyclodextrin and β-cyclodextrin as stabilizing agents on the size of gold nanoparticles(2022)2 cited
• → Interaction of cyclodextrins with drugs. Chromatographic investigation using a cyclodextrin bonded-phase and its application to chiral separations(1994)3 cited
• Determination of Binding Constants of β-Cyclodextrin and Resveratrol by Affinity Capillary Electrophoresis(2004)
• → Evaluation of the Quality Characteristics of Makgeolli according to the amount of β-Cyclodextrin Input(2021)