Issue 9, 2012

Linear free-energy relationships for water/hexadec-1-ene and water/deca-1,9-diene partitions, and for permeation through lipid bilayers; comparison of permeation systems

Abstract

Linear free energy relationships based on Abraham descriptors have been obtained for partition from water and the gas phase into hexadec-1-ene and into deca-1,9-diene, and for permeation through egg lecithin bilayers. Comparison with equations for partition into a large number of organic solvents shows that hexadec-1-ene and deca-1,9-diene are excellent models for permeation through egg lecithin bilayers. Wet octanol is a poor model, as are all polar organic solvents. The egg lecithin bilayer is non-polar and has only weak hydrogen bond acidity and weak hydrogen bond basicity. Comparison of equations for permeation through egg lecithin bilayers, through the human intestinal membrane, through the blood-brain membrane and through human skin shows that these four permeation processes are chemically far apart. It is not possible to obtain any general model for permeation: each permeation process requires a different model system.

Graphical abstract: Linear free-energy relationships for water/hexadec-1-ene and water/deca-1,9-diene partitions, and for permeation through lipid bilayers; comparison of permeation systems

Article information

Article type
Paper
Submitted
05 Apr 2012
Accepted
14 Jun 2012
First published
18 Jun 2012

New J. Chem., 2012,36, 1798-1806

Linear free-energy relationships for water/hexadec-1-ene and water/deca-1,9-diene partitions, and for permeation through lipid bilayers; comparison of permeation systems

M. H. Abraham and W. E. Acree, New J. Chem., 2012, 36, 1798 DOI: 10.1039/C2NJ40262A

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