Lipophilicity in Molecular Modeling
10.1023/a:1016024005429
Crossref journal-article
Springer Science and Business Media LLC
Pharmaceutical Research (297)
Bibliography

Testa, B., Carrupt, P.-A., Gaillard, P., Billois, F., & Weber, P. (1996). Lipophilicity in Molecular Modeling. Pharmaceutical Research, 13(3), 335–343.

Authors 5
  1. Bernard Testa (first)
  2. Pierre-Alain Carrupt (additional)
  3. Patrick Gaillard (additional)
  4. Frédéric Billois (additional)
  5. Peter Weber (additional)
References 43 Referenced 144
  1. F. Helmer, K. Kiehs, and C. Hansch, The linear free-energy relation between partition coefficients and the binding, and conformational perturbation of macromolecules by small organic compounds. Biochem. 7:2858–2863 (1968). (10.1021/bi00848a023) / Biochem. by F. Helmer (1968)
  2. C. Hansch and A. Leo. Substituent Constants for Correlation Analysis in Chemistry and Biology. John Wiley and Sons, New York, 1979. / Substituent Constants for Correlation Analysis in Chemistry and Biology by C. Hansch (1979)
  3. R. F. Rekker. The Hydrophobic Fragmental Constant. Elsevier, Amsterdam, 1977. / The Hydrophobic Fragmental Constant by R. F. Rekker. (1977)
  4. H. van de Waterbeemd and B. Testa. The parametrization of lipophilicity and other structural properties in drug design. In B. Testa (ed.), Advances in Drug Research. Vol. 16, Academic Press, London, 1987, pp. 87–227. / Advances in Drug Research by H. van de Waterbeemd (1987)
  5. N. El Tayar, B. Testa, and P. A. Carrupt, Polar intermolecular interactions encoded in partition coefficients: an indirect estimation of hydrogen-bond parameters of polyfunctional solutes. J. Phys. Chem. 96:1455–1459 (1992). (10.1021/j100182a078) / J. Phys. Chem. by N. El Tayar (1992)
  6. E. Audry, J. P. Dubost, J. C. Colleter, and P. Dallet, A new approach to structure-activity relations: the “molecular lipophilicity potential”. Eur. J. Med. Chem. 21:71–72 (1986). / Eur. J. Med. Chem. by E. Audry (1986)
  7. J. L. Fauchère, P. Quarendon, and L. Kaetterer, Estimating and representing hydrophobicity potential. J. Mol. Graphics 6:203–206 (1988). (10.1016/S0263-7855(98)80004-0) / J. Mol. Graphics by J. L. Fauchère (1988)
  8. P. Furet, A. Sele, and N. C. Cohen, 3D molecular lipophilicity potential profiles: a new tool in molecular modeling. J. Mol. Graphics 6:182–189 (1988). (10.1016/S0263-7855(98)80001-5) / J. Mol. Graphics by P. Furet (1988)
  9. G. E. Kellogg, S. F. Semus, and D. J. Abraham, HINT: a new method of empirical hydrophobic field calculation for CoMFA. J. Comput.-Aided Mol. Des. 5:545–552 (1991). (10.1007/BF00135313) / J. Comput.-Aided Mol. Des. by G. E. Kellogg (1991)
  10. W. Heiden, G. Moeckel, and J. Brickmann, A new approach to analysis and display of local lipophilicity/hydrophilicity mapped on molecular surfaces. J. Comput.-Aided Mol. Des. 7:503–514 (1993). (10.1007/BF00124359) / J. Comput.-Aided Mol. Des. by W. Heiden (1993)
  11. P. Gaillard, P. A. Carrupt, B. Testa, and A. Boudon, Molecular lipophilicity potential, a tool in 3D-QSAR. Method and applications. J. Comput.-Aided Mol. Des. 8:83–96 (1994). (10.1007/BF00119860) / J. Comput.-Aided Mol. Des. by P. Gaillard (1994)
  12. D. J. Abraham and G. E. Kellogg. Hydrophobic fields. In H. Kubinyi (ed.), 3D QSAR in Drug Design. Theory Methods and Applications. ESCOM Science Publishers, Leiden, 1993, pp. 506–522. / 3D QSAR in Drug Design. Theory Methods and Applications by D. J. Abraham (1993)
  13. R. W. Taft, J. L. M. Abboud, M. J. Kamlet, and M. H. Abraham, Linear solvation energy relations. J. Sol. Chem. 14:153–186 (1985). (10.1007/BF00647061) / J. Sol. Chem. by R. W. Taft (1985)
  14. N. El Tayar, R. S. Tsai, B. Testa, P. A. Carrupt, and A. Leo, Partitioning of solutes in different solvent systems: the contribution of hydrogen-bonding capacity and polarity. J. Pharm. Sci. 80:590–598 (1991). (10.1002/jps.2600800619) / J. Pharm. Sci. by N. El Tayar (1991)
  15. B. Testa, P. A. Carrupt, P. Gaillard, and R. S. Tsai. Intramolecular interactions encoded in lipophilicity: their nature and significance. In V. Pliska, B. Testa, and H. van de Waterbeemd (eds.), Lipophilicity in Drug Research, VCH Publishers, Weinheim, 1996, in press. / Lipophilicity in Drug Research by B. Testa (1996)
  16. R. F. Rekker and H. M. De Kort, The hydrophobic fragmental constant; an extension to a 1000 data point set. Eur. J. Med. Chem. 14:479–488 (1979). / Eur. J. Med. Chem. by R. F. Rekker (1979)
  17. L. B. Kier and B. Testa. Complexity and emergence in drug research. In B. Testa and U.A. Meyer (eds.), Advances in Drug Research. Vol. 26, Academic Press, London, 1995, pp. 1–43. / Advances in Drug Research by L. B. Kier (1995)
  18. C. Hansch and S. M. Anderson, The effect of intramolecular hydrophobic bonding on partition coefficient. J. Org. Chem. 32:2583–2586 (1967). (10.1021/jo01283a049) / J. Org. Chem. by C. Hansch (1967)
  19. R. A. Wiley and D. H. Rich, Peptidomimetics derived from natural products. Med. Res. Rev. 13:327–384 (1993). (10.1002/med.2610130305) / Med. Res. Rev. by R. A. Wiley (1993)
  20. D. H. Rich. Effect of hydrophobic collapse on enzyme-inhibitor interactions. Implications for the design of peptidomimetics. In B. Testa, E. Kyburz, W. Fuhrer, and R. Giger (eds.), Perspectives in Medicinal Chemistry, VCH Verlag, Weinheim, 1993, pp. 15–25. / Perspectives in Medicinal Chemistry by D. H. Rich. (1993)
  21. X. K. Jiang, Hydrophobic-lipophilicity interactions. Aggregation and self-coiling of organic molecules. Acc. Chem. Res. 21:362–367 (1988). (10.1021/ar00154a002) / Acc. Chem. Res. by X. K. Jiang (1988)
  22. P. A. Carrupt, B. Testa, A. Bechalany, N. El Tayar, P. Descas, and D. Perrissoud, Morphine 6-glucuronide and morphine 3-glucuronide as molecular chameleons with unexpected lipophilicity. J. Med. Chem. 34:1272–1275 (1991). (10.1021/jm00108a005) / J. Med. Chem. by P. A. Carrupt (1991)
  23. P. Broto, G. Moreau, and C. Vandycke, Molecular structure: perception, autocorrelation descriptor and SAR studies. Perception of molecules: topological structure and 3-dimensional structure. Eur. J. Med. Chem. 19:61–65 (1984). / Eur. J. Med. Chem. by P. Broto (1984)
  24. A. K. Ghose and G. M. Crippen, Atomic physicochemical parameters for three-dimensional structure-directed quantitative structure-activity relationships. 1. Partition coefficients as a measure of hydrophobicity. J. Comput. Chem. 7:565–577 (1986). (10.1002/jcc.540070419) / J. Comput. Chem. by A. K. Ghose (1986)
  25. A. Kantola, H. O. Villar, and G. H. Loew, Atom based parametrization for a conformationally dependent hydrophobic index. J. Comput. Chem. 12:681–689 (1991). (10.1002/jcc.540120605) / J. Comput. Chem. by A. Kantola (1991)
  26. G. Klopman and S. Wang, A computer automated structure evaluation (CASE). Approach to calculation of partition coefficients. J. Comput. Chem. 12:1025–1032 (1991). (10.1002/jcc.540120815) / J. Comput. Chem. by G. Klopman (1991)
  27. P. Camilleri, S. A. Watts, and J. A. Boraston, A surface area approach to determination of partition coefficients. J. Chem. Soc., Perkin Trans. 2 1699–1707 (1988). (10.1039/p29880001699) / J. Chem. Soc., Perkin Trans. by P. Camilleri (1988)
  28. S. Hirono, Q. Liu, and I. Moriguchi, High correlation between hydrophobic free energy and molecular surface area characterized by electrostatic potential. Chem. Pharm. Bull. 39:3106–3109 (1991). (10.1248/cpb.39.3106) / Chem. Pharm. Bull. by S. Hirono (1991)
  29. A. K. Ghose and G. M. Crippen, Atomic physicochemical parameters for three-dimensional-structure-directed quantitative structure-activity relationships. 2. Modeling dispersive and hydrophobic interactions. J. Chem. Inf. Comput. Sci. 27:21–35 (1987). (10.1021/ci00053a005) / J. Chem. Inf. Comput. Sci. by A. K. Ghose (1987)
  30. P. Gaillard, P. A. Carrupt, and B. Testa, The conformation-dependent lipophilicity of morphine glucuronides as calculated from their molecular lipophilicity potential. Bioorg. Med. Chem. Lett. 4:737–742 (1994). (10.1016/S0960-894X(01)80191-8) / Bioorg. Med. Chem. Lett. by P. Gaillard (1994)
  31. P. A. Carrupt, P. Gaillard, F. Billois, P. Weber, B. Testa, C. Meyer, and S. Pérez. The molecular lipophilicity potential (MLP) a new tool for log P calculation and in comparative molecular field analysis (CoMFA). In V. Pliska, B. Testa, and H. van de Waterbeemd (eds.), Lipophilicity in Drug Research, VCH Publishers, Weinheim, 1996, in press. / Lipophilicity in Drug Research by P. A. Carrupt (1996)
  32. A. R. Leach. A survey of methods for searching the conformational space of small and medium-sized molecules. In K. B. Lipkowitz and D. B. Boyd (eds.), Reviews in Computational Chemistry, Vol. II, VCH, New York, 1991, pp. 1–55. / Reviews in Computational Chemistry by A. R. Leach. (1991)
  33. M. Brunner-Guenat, P. A. Carrupt, G. Lisa, B. Testa, S. Rose, K. Thomas, P. Jenner, and P. Ventura, Esters of L-Dopa: structure-hydrolysis relationships and ability to induce circling behaviour in an experimental model of hemiparkinsonism. J. Pharm. Pharmacol. 47:861–869 (1995). (10.1111/j.2042-7158.1995.tb05755.x) / J. Pharm. Pharmacol. by M. Brunner-Guenat (1995)
  34. R. D. Cramer III, D. E. Patterson, and J. D. Bunce, Comparative molecular field analysis (CoMFA). 1. Effect of shape on binding of steroids to carrier proteins. J. Am. Chem. Soc. 110:5959–5967 (1988). (10.1021/ja00226a005) / J. Am. Chem. Soc. by R. D. Cramer III (1988)
  35. R. D. Cramer III, S. A. DePriest, D. E. Patterson, and P. Hecht. The developing practice of comparative molecular field analysis. In H. Kubinyi (ed.), 3D QSAR in Drug Design. Theory Methods and Applications. ESCOM Science Publishers, Leiden, 1993, pp. 443–485. / 3D QSAR in Drug Design. Theory Methods and Applications by R. D. Cramer III (1993)
  36. G. Klebe and U. Abraham, On the prediction of binding properties of drug molecules by comparative molecular field analysis. J. Med. Chem. 36:70–80 (1993). (10.1021/jm00053a009) / J. Med. Chem. by G. Klebe (1993)
  37. P. Gaillard, P. A. Carrupt, B. Testa, and P. Schambel, Binding of arylpiperazines, (aryloxy)propanolamines and tetrahydro-pyridyl-indoles to the 5-HT1A receptor: contribution of the molecular lipophilicity potential to three-dimensional quantitative structure-activity relationship models. J. Med. Chem. 39:126–134 (1996). (10.1021/jm950410b) / J. Med. Chem. by P. Gaillard (1996)
  38. S. Kneubühler, U. Thull, C. Altomare, V. Carta, P. Gaillard, P. A. Carrupt, A. Carotti, and B. Testa, Inhibition of monoamine oxidase-B by 5H-indeno[1,2-c]pyridazine derivatives: biological activities, quantitative structure-activity relationships (QSARs) and 3D-QSARs. J. Med. Chem. 38:3874–3883 (1995). (10.1021/jm00019a018) / J. Med. Chem. by S. Kneubühler (1995)
  39. U. Thull, S. Kneubühler, P. Gaillard, P. A. Carrupt, B. Testa, C. Altomare, A. Carotti, P. Jenner, and K. S. P. McNaught, Inhibition of monoamine oxidase by isoquinoline derivatives: qualitative and 3D-quantitative structure-activity relationships. Biochem. Pharmacol. 50:869–877 (1995). (10.1016/0006-2952(95)00220-T) / Biochem. Pharmacol. by U. Thull (1995)
  40. C. Meyer. Bases moléculaires du goût su{ie343-1}ré: flexibilité conformationnelle et relations structure-activité d'édulcorants intenses dérivés du saccharose. Université de Nantes, Nantes, 1994. / Bases moléculaires du goût su{ie343-1}ré: flexibilité conformationnelle et relations structure-activité d'édulcorants intenses dérivés du saccharose by C. Meyer. (1994)
  41. C. T. Dourish, Piribedil: behavioural neurochemical and clinical profile of a dopamine agonist. Prog. Neuro-Psychopharmacol. & Biol. Psychiat. 7:3–27 (1983). (10.1016/0278-5846(83)90085-4) / Prog. Neuro-Psychopharmacol. & Biol. Psychiat. by C. T. Dourish (1983)
  42. Y. Evrard, Le piribédil, agoniste dopaminergique. Actual. Chim. Thér. N o Spécial: 16–20 (1991).
  43. C. D. Livingstone, P. G. Strange, and L. H. Naylor, Molecular modelling of D2-like dopamine receptors. Biochem. J. 287:277–282 (1992). (10.1042/bj2870277) / Biochem. J. by C. D. Livingstone (1992)
Dates
Type When
Created 22 years, 8 months ago (Dec. 28, 2002, 3:59 p.m.)
Deposited 1 month ago (Aug. 1, 2025, 2:40 a.m.)
Indexed 1 month ago (Aug. 6, 2025, 8:47 a.m.)
Issued 29 years, 6 months ago (March 1, 1996)
Published 29 years, 6 months ago (March 1, 1996)
Published Print 29 years, 6 months ago (March 1, 1996)
Funders 0

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@article{Testa_1996, title={Lipophilicity in Molecular Modeling}, volume={13}, ISSN={1573-904X}, url={http://dx.doi.org/10.1023/a:1016024005429}, DOI={10.1023/a:1016024005429}, number={3}, journal={Pharmaceutical Research}, publisher={Springer Science and Business Media LLC}, author={Testa, Bernard and Carrupt, Pierre-Alain and Gaillard, Patrick and Billois, Frédéric and Weber, Peter}, year={1996}, month=mar, pages={335–343} }