Issue 3, 2011
From the journal:

Soft Matter

Phase separation and dynamical arrest for particles interacting with mixed potentials—the case of globular proteins revisited

Thomas Gibaud,a   Frédéric Cardinaux,a   Johan Bergenholtz,b   Anna Stradnerc  and  Peter Schurtenberger*d  

* Corresponding authors

a Department of Physics, University of Fribourg, Fribourg, Switzerland

b Department of Chemistry, University of Gothenburg, Göteborg, Sweden

c Adolphe Merkle Institute, University of Fribourg, Fribourg, Switzerland

d Division of Physical Chemistry, Center for Chemistry and Chemical Engineering, Lund University, Lund, Sweden
E-mail: Peter.Schurtenberger@fkem1.lu.se

Abstract

We examine the applicability of the extended law of corresponding states (ELCS) to equilibrium and non equilibrium features of the state diagram of the globular protein lysozyme. We provide compelling evidence that the ELCS correctly reproduces the location of the binodal for different ionic strengths, but fails in describing the location of the arrest line. We subsequently use Mode Coupling Theory (MCT) to gain additional insight into the origin of these observations. We demonstrate that while the critical point and the connected binodal and spinodal are governed by the integral features of the interaction potential described by the normalized second virial coefficient, the arrest line is mainly determined by the attractive well depth or bond strength.

Graphical abstract: Phase separation and dynamical arrest for particles interacting with mixed potentials—the case of globular proteins revisited

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Article information

DOI
https://doi.org/10.1039/C0SM01175D
Article type
Communication
Submitted
19 Oct 2010
Accepted
02 Dec 2010
First published
20 Dec 2010

Soft Matter, 2011,7, 857-860

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Phase separation and dynamical arrest for particles interacting with mixed potentials—the case of globular proteins revisited

T. Gibaud, F. Cardinaux, J. Bergenholtz, A. Stradner and P. Schurtenberger, Soft Matter, 2011, 7, 857 DOI: 10.1039/C0SM01175D

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