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Study of the serum albumin-polyethyleneglycol interaction to predict the protein partitioning in aqueous two-phase systems |
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| Authors: | Farruggia Beatriz Nerli Bibiana Picó Guillermo |
| Institution: | Facultad de Cs. Bioquímicas y Farmacéuticas, Universidad Nacional de Rosario, CIUNR and CONICET (2000), Rosario, Argentina. |
| Abstract: | The theoretical framework based only on the excluded volume forces is not enough to explain the bovine serum albumin partitioning behaviour in aqueous biphasic systems. The goal of this work is to look at the phase separation via the polymer effect on the water structure. Our findings suggest that polyethyleneglycol 600-protein interaction is conducted by van der Waals forces between the hydrophobic surfaces from PEG and protein molecules, which implies the rupture of hydrogen bonds from the structured water in their neighbours. Therefore, the protein will concentrate in the most water-structured phase (polyethyleneglycol) in order to reach the minimal free energy condition. When polyethyleneglycol molecular weight increases, its exclusion from protein surface prevails, thus pushing the bovine serum albumin to the bottom phase. |
| Keywords: | PEG600 polyethyleneglycol of average molecular weights 600 PEG1000 polyethyleneglycol of average molecular weights 1000 PEG1450 polyethyleneglycol of average molecular weights 1450 PEG3350 polyethyleneglycol of average molecular weights 3350 PEG6000 polyethyleneglycol of average molecular weights 6000 PEG8000 polyethyleneglycol of average molecular weights 8000 BSA bovine serum albumin ANS 1 anilino-8-naphthalene sulfonate relative protein surface hydrophobicity diffusion hydrodynamic coefficient anisotropy CD circular dichroism Protein partitioning Aqueous two-phase systems Albumin Polyethyleneglycol |
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