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An information theory model of hydrophobic interactions

A molecular model of poorly understood hydrophobic effects is heuristically developed using the methods of information theory. Because primitive hydrophobic effects can be tied to the probability of observing a molecular-sized cavity in the solvent, the probability distribution of the number of solvent centers in a cavity volume is modeled on the basis of the two moments available from the density and radial distribution of oxygen atoms in liquid water. The modeled distribution then yields the probability that no solvent centers are found in the cavity volume. This model is shown to account quantitatively for the central hydrophobic phenomena of cavity formation and association of inert gas solutes. The connection of information theory to statistical thermodynamics provides a basis for clarification of hydrophobic effects. The simplicity and flexibility of the approach suggest that it should permit applications to conformational equilibria of nonpolar solutes and hydrophobic residues in biopolymers.

Reference

Hummer G, Garde S, Garcia AE, Pohorille A and Pratt LR (). "An information theory model of hydrophobic interactions ," Proc. Natl. Acad. Sci., 93 (17), 8951-8955

Bibtex

@article{hummer1996information,
  title   = {An information theory model of hydrophobic interactions},
  author  = {Hummer, Gerhard and Garde, Shekhar and Garc{\'\i}a, Angel E. and Pohorille, Andrew and Pratt, Lawrence R.},
  journal = {Proc. Natl. Acad. Sci.},
  volume  = {93},
  number  = {17},
  pages   = {8951--8955},
  year    = {1996},
  doi     = {10.1073/pnas.93.17.8951}
}