Journal
COLLOIDS AND SURFACES B-BIOINTERFACES
Volume 161, Issue -, Pages 387-393Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.colsurfb.2017.10.069
Keywords
Bovine beta-lactoglobulin structure; High pressure beta-lactoglobulin conformation; Adsorption; Electrophoretic mobility; QCM-D
Funding
- European Regional Development Fund in the framework of the Polish Innovation Economy Operational Program [POIG.02.01.00-12-023/08]
- grant NCN OPUS [2012/07/B/ST5/00767]
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beta-Lactoglobulin, being one of the principal whey protein, is of huge importance to the food industry. Temperature/pressure effects on this small protein has been extensively studied by industry. To characterize biochemical properties of beta-lactoglobulin after or during pressurization, a wide range of methods have been used thus far. In this study, for the first time, the pressure-induced conformation of beta-lactoglobulin in the crystal state was determined, at pressure 430 MPa. Changes observed in the high pressure structure correlate with the physico-chemical properties of pressure-treated beta-lactoglobulin obtained from dynamic light scattering, electrophoretic mobility and quartz crystal microbalance with dissipation monitoring measurements. A comparison between the beta-lactoglobulin structures determined at both high and ambient pressure contrasts the stable nature of the protein core and adjacent loop fragments. At high pressure the beta-lactoglobulin structure presents early signs of dimer dissociation, charge and conformational changes characteristic for initial unfolded intermediate as well as a significant modification of the binding pocket volume. Those observations are supported by changes in zeta potential values and results in increase affinity of the beta-lactoglobulin adsorption onto gold surface. Observed pressure-induced structural modifications were previously suggested as an important factor contributing to beta-lactoglobulin denaturation process. Presented studies provide detailed analysis of pressure-associated structural changes influencing beta-lactoglobulin conformation and consequently its adsorption. (C) 2017 Elsevier B.V. All rights reserved.
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