Investigation of the mechanism of protein adsorption on ordered mesoporous silica using flow microcalorimetry |
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Authors: | Amit Katiyar Stephen W. Thiel Vadim V. GuliantsNeville G. Pinto |
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Affiliation: | Department of Chemical and Materials Engineering, University of Cincinnati, Cincinnati, OH 45221-0012, USA |
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Abstract: | The adsorption of bovine serum albumin (BSA) and lysozyme (LYS) on siliceous SBA-15 with 24 nm pores was studied using flow microcalorimetry; this is the first attempt to understand the thermodynamics of protein adsorption on SBA-15 using flow microcalorimetry. The adsorption mechanism is a strong function of protein structure. Exothermic events were observed when protein–surface interactions were attractive. Entropy-driven endothermic events were also observed in some cases, resulting from lateral protein–protein interactions and conformational changes in the adsorbed protein. The magnitudes of the enthalpies of adsorption for primary protein–surface interactions decrease with increased surface coverage, indicating the possibility of increased repulsion between adsorbed protein molecules. Secondary exothermic events were observed for BSA adsorption, presumably due to secondary adsorption made possible by conformational changes in the soft BSA protein. These secondary adsorption events were not observed for lysozyme, which is structurally robust. The results of this study emphasize the influence of solution conditions and protein structure on conformational changes of the adsorbed protein and the value of calorimetry in understanding protein–surface interactions. |
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Keywords: | Ordered mesoporous material Protein adsorption Flow calorimetry Heat of adsorption Protein&ndash surface interaction |
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