Probing biofouling resistant polymer brush surfaces by atomic force microscopy based force spectroscopy
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- 作者:Peter Schö ; na ; Edit Kutnyanszkya ; Bas ten Donkelaara ; M. Gabriella Santonicolaa ; Tugba Tecima ; Nick Aldredb ; Anthony S. Clareb ; G. Julius Vancsoa ; g.j.vancso@utwente.nl
- 关键词:Biofouling ; Atomic force microscopy (AFM) ; Colloidal probing ; Fibronectin ; Arginine-glycine-aspartic acid (RGD) adhesion peptide ; Poly(sulfobetaine methacrylate) (pSBMA) brushes
- 刊名:Colloids and Surfaces B: Biointerfaces
- 出版年:2013
- 出版时间:1 February, 2013
- 年:2013
- 卷:102
- 期:Complete
- 页码:923-930
- 全文大小:715 K
文摘
The protein repellency and biofouling resistance of zwitterionic poly(sulfobetaine methacrylate)(pSBMA) brushes grafted via surface initiated polymerization (SIP) from silicon and glass substrata was assessed using atomic force microscopy (AFM) adherence experiments. Laboratory settlement assays were conducted with cypris larvae of the barnacle Balanus amphitrite. AFM adherence includes the determination of contact rupture forces when AFM probe tips are withdrawn from the substratum. When the surface of the AFM tip is modified, adherence can be assessed with chemical specifity using a method known as chemical force microscopy (CFM). In this study, AFM tips were chemically functionalized with (a) fibronectin- here used as model for a nonspecifically adhering protein - and (b) arginine-glycine-aspartic acid (RGD) peptide motifs covalently attached to poly(methacrylic acid) (PMAA) brushes as biomimics of cellular adhesion receptors. Fibronectin functionalized tips showed significantly reduced nonspecific adhesion to pSBMA-modified substrata compared to bare gold (2.3 ¡À 0.75 nN) and octadecanethiol (ODT) self-assembled monolayers (1.3 ¡À 0.75 nN). PMAA and PMAA-RGD modified probes showed no significant adhesion to pSBMA modified silicon substrata. The results gathered through AFM protein adherence studies were complemented by laboratory fouling studies, which showed no adhesion of cypris larvae of Balanus amphitrite on pSBMA. With regard to its unusually high non-specific adsorption to a wide variety of materials the behavior of fibronectin is analogous to the barnacle cyprid temporary adhesive that also binds well to surfaces differing in polarity, charge and free energy. The antifouling efficacy of pSBMA may, therefore, be directly related to the ability of this surface to resist nonspecific protein adsorption.