Protein Folding, Stability and Solvation Structure in Osmolyte Solutions

doi:10.1529/biophysj.105.067330

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Biophys. J. BioFAST: First Published August 19, 2005. doi:10.1529/biophysj.105.067330
© 2005 by the Biophysical Society.

A more recent version of this article appeared on November 1, 2005.

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BIOPHYSICAL THEORY AND MODELING

Protein Folding, Stability and Solvation Structure in Osmolyte Solutions

Jörg Rösgen ¹^*, Montgomery Pettitt ² and David Wayne Bolen ¹

¹ Univ. of Texas Medical Branch
² University of Houston

^* To whom correspondence should be addressed. E-mail: jorosgen{at}utmb.edu.

Submitted on May 25, 2005
Revised on July 13, 2005
Accepted on 8 August 2005

Abstract
An understanding of the impact of the crowded conditions inthe cytoplasm on its biomolecules is of clear importance tobiochemical, medical and pharmaceutical science. Our previouswork on the use of small biochemical compounds to crowd proteinsolutions indicates that a quantitative description of theirnon-ideal behavior is possible and straightforward. Here, weshow the structural origin of the non-ideal solution behavior.We discuss the consequences of these findings regarding proteinfolding stability and solvation in crowded solutions througha structural analysis of the m-value or the change in free energydifference of a macromolecule in solution with respect to theconcentration of a third component.

Key Words: Chemical Potential, Hydration, Kirkwood-Buff Theory, Preferential Interaction, Protein Folding, Solvation

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