On the Possibility of Indirect Determination of the Glass Transition Temperature of Proteins from Viscosity Measurements and Avramov's Model

The paper presents the results of viscosity determinations on aqueous solutions of hen egg-white lysozyme, bovine ß-lactoglobulin, human and porcine immunoglobulin IgG at a wide range of concentrations and at temperatures ranging from 5 C to 55 C. Viscosity-temperature dependence of the proteins sol...

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Bibliographic Details
Published in:Current Topics in Biophysics 2015-01, Vol.37 (1), p.63-70
Main Author: Monkos, Karol
Format: Article
Language:English
Subjects:
Aqueous solutions
Eggs
Glass transition temperature
Immunoglobulin G
Interaction parameters
Lactoglobulin
Lysozyme
Mathematical models
Proteins
Temperature
Temperature dependence
Transition temperatures
Viscosity
Viscosity measurement
β-Lactoglobulin
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Summary:The paper presents the results of viscosity determinations on aqueous solutions of hen egg-white lysozyme, bovine ß-lactoglobulin, human and porcine immunoglobulin IgG at a wide range of concentrations and at temperatures ranging from 5 C to 55 C. Viscosity-temperature dependence of the proteins solutions is analyzed based on a formula resulting from the Avramov's model. One of the parameters in the Avramov's equation is the glass transition temperature T . It turns out that for all studied proteins, the Tg of the solution increases with increasing concentration. To determine the glass transition temperature of the dry protein Tg,p, a modified form of the Gordon-Taylor equation is used. This equation gives the relationship between Tg and the concentration of the solution, and Tg,p and a parameter dependent on the strength of protein-solvent interaction are fitting parameters. Thus determined the glass transition temperature for the studied dry proteins is in the range from 227.3 K (for bovine ß-lactoglobulin) to 260.6 K (for hen egg-white lysozyme).
ISSN:2084-1892
1232-9630
2084-1892
DOI:10.2478/ctb-2014-0076