论文信息 - Hydrophobicity: is LogP(o/w) more than the sum of its parts?

Hydrophobicity: is LogP(o/w) more than the sum of its parts?

The empirically calculated parameter LogP(o/w), the log(10) of the coefficient for solvent partitioning between 1-octanol and water, has been used to provide the key data for a unique non-covalent interaction force field called HINT (Hydropathic INTeractions). This experimentally-derived force field encodes entropic as well as enthalpic information and also includes some representation of solvation and desolvation energetics in biomolecular associations. The theoretical basis for the HINT model is discussed. This review includes: 1) discussion of calculational representation of the hydrophobic effect, 2) the rationale for describing the experimental LogP(o/w) based descriptors used in the HINT force field and model as free energy-like, 3) the relationship between hydrophobic fragment constants and partial group electrostatic charge, and 4) the implications of structurally-conserved water molecules on free energy of molecular association. Several recent applications of HINT in structure-based and ligand-based drug discovery are reviewed. Finally, future directions in the HINT model development are proposed.

D. Abraham | D J Abraham | G Eugene Kellogg | G. Eugene Kellogg

[1] A. Leo,et al. Substituent constants for correlation analysis. , 1977, Journal of medicinal chemistry.

[2] J. L. Fauchère. QSAR: quantitative structure-activity relationships in drug design. Proceedings of the 7th European Symposium on QSAR. Interlaken, Switzerland, September 5-9, 1988. , 1989, Progress in clinical and biological research.

[3] C. L. Propst,et al. Computer-Aided Drug Design: Methods and Applications , 1989 .

[4] F. Young. Biochemistry , 1955, The Indian Medical Gazette.

[5] Albert J. Leo,et al. Quantitative Structure-Activity Relationships in Drug-Design , 1975 .

[6] C. H. Walker. The Hydrophobic Effect: Formation of Micelles and Biological Membranes , 1981 .

[7] A. Leo,et al. Substituent constants for correlation analysis in chemistry and biology , 1979 .

[8] S. Clarke. The hydrophobic effect: Formation of micelles and biological membranes, 2nd edition (Tanford, Charles) , 1981 .

[9] A. Gupta. [Hemoglobin]. , 2018, Nihon Ketsueki Gakkai zasshi : journal of Japan Haematological Society.

[10] G. Némethy,et al. Hydrophobic interactions. , 1967, Angewandte Chemie.

[11] Hugo Kubinyi,et al. 3D QSAR in drug design : theory, methods and applications , 2000 .

[12] D. Hoekman. Exploring QSAR Fundamentals and Applications in Chemistry and Biology, Volume 1. Hydrophobic, Electronic and Steric Constants, Volume 2 J. Am. Chem. Soc. 1995, 117, 9782 , 1996 .