Energetics of lysozyme adsorption on mesostructured cellular foam silica: Effect of salt concentration

The heat of lysozyme adsorption on mesostructured cellular foam (MCF) silica was measured using flow microcalorimetry (FMC) to investigate the influence of a neutral salt, sodium sulfate. At concentrations up to 0.5 M sodium sulfate, a complex initial exotherm was followed by an endotherm. Protein s...

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Bibliographic Details
Published in:Journal of Chromatography A 2011-09, Vol.1218 (38), p.6697-6704
Main Authors: Kim, Jungseung, Desch, Rebecca J., Thiel, Stephen W., Guliants, Vadim V., Pinto, Neville G.
Format: Article
Language:English
Subjects:
adsorption
Adsorption energetics
Analytical, structural and metabolic biochemistry
Biological and medical sciences
chromatography
desorption
Flow microcalorimetry (FMC)
foams
Fundamental and applied biological sciences. Psychology
General aspects, investigation methods
heat production
ionic strength
Lysozyme
Mesostructured cellular foam (MCF) silica
Proteins
salt concentration
silica
Sodium sulfate
van der Waals forces
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Summary:The heat of lysozyme adsorption on mesostructured cellular foam (MCF) silica was measured using flow microcalorimetry (FMC) to investigate the influence of a neutral salt, sodium sulfate. At concentrations up to 0.5 M sodium sulfate, a complex initial exotherm was followed by an endotherm. Protein surface coverage, the magnitudes of the exothermic heat signals and the magnitudes of the net heat of adsorption increased with sodium sulfate concentration. These observations suggest that electrostatic interactions are the principal driving force at low ionic strengths; van der Waals interactions become dominant at higher salt concentrations. Each exotherm could be deconvoluted into two exotherms, indicating multiple modes of lysozyme attachment to the silica surface. The endothermic peak, associated with protein desorption, disappeared at the highest sodium sulfate concentration (1.0 M), indicating irreversible adsorption of the protein on the MCF silica surface. The data are consistent with an adsorption mechanism in which the initial attachment of lysozyme to the surface is followed by a reorientation and formation of a secondary or stronger attachment to the surface.
ISSN:0021-9673
DOI:10.1016/j.chroma.2011.07.065