Jorge Carrazana scite author profile

Since the beta-cyclodextrin cavity is not a smooth cone but has constrictions in the neighborhoods of the H3 and H5 atoms, the hypothesis that bulky hydrophobic guests can form two isomeric inclusion complexes (one of them, c(p), is formed by the entrance of the guest by the primary side of the cavity, and the other one, c(s), results from the entrance by the secondary side) is checked. Thus, the inclusion processes of two 1-substituted adamantyl derivatives (rimantidine and adamantylmethanol) with beta-cyclodextrin and its two monoamino derivatives at positions 6 (6-NH2beta-CD) and 3 (3-NH2beta-CD) were studied. From rotating-frame Overhauser enhancement spectroscopy experiments, it was deduced that both guests form c(s) complexes with beta-CD and 6-NH2beta-CD but c(p) complexes with 3-NH2beta-CD. In all cases, the hydrophilic group attached to the adamantyl residue protrudes toward the bulk solvent outside the cyclodextrin cavity. The thermodynamic parameters (free energy, equilibrium constant, enthalpy, and entropy) associated with the inclusion phenomena were measured by isothermal titration calorimetry experiments. From these results, the difference in the free energy for the formation of the two complexes, c(s) and c(p), for the same host/guest system has been estimated as being 11.5 +/- 0.8 kJ mol(-1). This large difference explains why under normal experimental conditions only one of the two complexes (c(s)) is detected. It is also concluded that a hyperboloid of revolution can be a better schematic picture to represent the actual geometry of the cyclodextrin cavities than the usual smooth cone or trapezium.

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Complexation of Methyl Orange with ß-cyclodextrin: Detailed Analysis and Application to Quantification of Polymer-bound Cyclodextrin

Carrazana

Reija

Ramos‐Cabrer

et al. 2004

Supramolecular Chemistry

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Crystal structure of chenodeoxycholic acid, ursodeoxycholic acid and their two 3β,7α- and 3β,7β-dihydroxy epimers

et al. 2007

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pH Dependent In−Out Isomerism of an Amino-β-cyclodextrin Derivative

et al. 2006

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An amino derivative of -cyclodextrin [6-(6-aminehexanamide)-6-deoxy)--cyclodextrin (6-CD)] was synthesized, and the formation of an intramolecular inclusion complex was studied by NMR techniques. The deprotonation/protonation of the amino group stimulates an in/out movement of the pendant group toward/ from the cyclodextrin cavity, the protonated species lying outside the hydrophobic cyclodextrin cavity but the unprotonated one residing inside and outside the cavity. The protonation of the amino group is a fast exchange rate NMR time-scale process, but the chain movement is a slow one. The equilibrium constants of both processes were determined from 1 H NMR experiments and the kinetic constants for the slow process were determined from exchange spectroscopy (EXSY) experiments.

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Jorge Carrazana

Complexation of Adamantyl Compounds by β-Cyclodextrin and Monoaminoderivatives

Complexation of Methyl Orange with ß-cyclodextrin: Detailed Analysis and Application to Quantification of Polymer-bound Cyclodextrin

Crystal structure of chenodeoxycholic acid, ursodeoxycholic acid and their two 3β,7α- and 3β,7β-dihydroxy epimers

pH Dependent In−Out Isomerism of an Amino-β-cyclodextrin Derivative

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