Protein Adsorption on Grafted Zwitterionic Polymers Depends on Chain Density and Molecular Weight

This study demonstrates that protein adsorption on end‐grafted, zwitterionic poly(sulfobetaine) (pSBMA) thin films depends on the grafting density, molecular weight, and ionic strength. Zwitterionic polymers exhibit ultralow nonspecific fouling (protein adsorption) and excellent biocompatibility. Th...

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Veröffentlicht in:	Advanced functional materials 2020-07, Vol.30 (30), p.n/a
Hauptverfasser:	Ahmed, Syeda Tajin, Leckband, Deborah E.
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Sprache:	eng
Schlagworte:	Adsorption Biocompatibility Density fouling Grafting grafting density Ions Kinases Lysozyme Materials science Mathematical models Molecular chains Molecular weight Parameters polymer brushes Polymers Protein adsorption Proteins Thin films zwitterionic polymer Zwitterions
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description	This study demonstrates that protein adsorption on end‐grafted, zwitterionic poly(sulfobetaine) (pSBMA) thin films depends on the grafting density, molecular weight, and ionic strength. Zwitterionic polymers exhibit ultralow nonspecific fouling (protein adsorption) and excellent biocompatibility. This picture contrasts with a recent report that soluble pSBMA chains bind proteins and alter the protein folding stability. To address this apparent contradiction, the dependence of protein adsorption on the chain grafting parameters is investigated: namely, the grafting density, molecular weight, and ionic strength. Studies compared the adsorption of phosphoglycerate kinase and positively charged lysozyme versus the scaled grafting parameter s/2RF, where s is the distance between grafting sites and RF is the Flory radius. Plots of the adsorbed protein amount versus s/2RF exhibit a bell‐shaped curve, with a maximum near s/2RF ≈ 1 and an amplitude that decreases with ionic strength. This behavior is qualitatively consistent with theoretical models for colloid interactions with weakly attractive, grafted chains. The results confirm that proteins do adsorb to pSBMA thin films, and they suggest an underlying mechanism. Comparisons with polymer models further identify design rules for pSBMA films that effectively repel protein. Protein adsorption on end‐grafted, zwitterionic poly(sulfobetaine) thin films depends on grafting density, molecular weight, and ionic strength. This behavior is qualitatively consistent with theoretical models for colloid interactions with weakly attractive, grafted chains.
doi_str_mv	10.1002/adfm.202000757
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Zwitterionic polymers exhibit ultralow nonspecific fouling (protein adsorption) and excellent biocompatibility. This picture contrasts with a recent report that soluble pSBMA chains bind proteins and alter the protein folding stability. To address this apparent contradiction, the dependence of protein adsorption on the chain grafting parameters is investigated: namely, the grafting density, molecular weight, and ionic strength. Studies compared the adsorption of phosphoglycerate kinase and positively charged lysozyme versus the scaled grafting parameter s/2RF, where s is the distance between grafting sites and RF is the Flory radius. Plots of the adsorbed protein amount versus s/2RF exhibit a bell‐shaped curve, with a maximum near s/2RF ≈ 1 and an amplitude that decreases with ionic strength. This behavior is qualitatively consistent with theoretical models for colloid interactions with weakly attractive, grafted chains. The results confirm that proteins do adsorb to pSBMA thin films, and they suggest an underlying mechanism. Comparisons with polymer models further identify design rules for pSBMA films that effectively repel protein. Protein adsorption on end‐grafted, zwitterionic poly(sulfobetaine) thin films depends on grafting density, molecular weight, and ionic strength. 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subjects	Adsorption Biocompatibility Density fouling Grafting grafting density Ions Kinases Lysozyme Materials science Mathematical models Molecular chains Molecular weight Parameters polymer brushes Polymers Protein adsorption Proteins Thin films zwitterionic polymer Zwitterions
title	Protein Adsorption on Grafted Zwitterionic Polymers Depends on Chain Density and Molecular Weight
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