Fibrinogen Monolayer Characterization by Colloid Deposition

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• 作者：Ma艂gorzata Nattich-Rak ; Zbigniew Adamczyk ; Monika Wasilewska ; Marta Sadowska
• 刊名：Langmuir
• 出版年：2013
• 出版时间：September 24, 2013
• 年：2013
• 卷：29
• 期：38
• 页码：11991-12002
• 全文大小：430K
• 年卷期：v.29,no.38(September 24, 2013)
• ISSN：1520-5827

文摘

Colloid particle deposition was applied to characterize bovine and human fibrinogen (Fb) monolayers on mica produced by controlled adsorption under diffusion transport at pH 3.5. The surface concentration of Fb was determined by AFM enumeration of single molecules adsorbed over the substrate surface. The electrokinetic properties of Fb monolayers for various ionic strength were studied using the in situ streaming potential measurements. It was shown that Fb adsorbs irreversibly on mica for a broad range of ionic strength of 4 脳 10^鈥? to 0.15 M, NaCl. The overcharging of initially negative mica surface occurred for fibrinogen surface concentrations higher than 1400 渭m^鈥?. The orientation of fibrinogen molecules in the monolayers was evaluated by the colloid deposition method involving negatively charged polystyrene latex microspheres, 820 nm in diameter. An anomalous deposition of negative latex particles on substrates exhibiting a negative zeta potential was observed, which contradicts the mean-field DLVO predictions. Measurable deposition was observed even at low ionic strength where the minimum approach distance of latex particles to the interface exceeds 70 nm (for 6 脳 10^鈥? M NaCl). This confirms that, at this pH, fibrinogen molecules adsorb end-on on mica assuming extended conformations with the positive charge located mostly in the end part of the 伪A chains. This agrees with previous experimental and theoretical results discussed in the literature (Santore, M. M.; Wertz Ch. F. Protein spreading kinetics at liquid-solid interfaces via an adsorption probe method. Langmuir 2005, 21, 10172鈥?0178 (experimental); Adamczyk, Z.; Barbasz, J.; Cie艣la, M.; Mechanisms of fibrinogen adsorption at solid substrates. Langmuir, 2011, 25, 6868鈥?878 (theoretical)). This unusual latex deposition on Fb monolayers was quantitatively interpreted in terms of the model developed in ref 55 (Jin, X.; Wang, N. H. L.; Tarjus, G.; Talbot, J. Irreversible adsorption on nonuniform surfaces: the random site model. J. Phys. Chem. 1993, 97, 4256鈥?258). It was concluded that the colloid deposition method is an efficient tool for revealing protein adsorption mechanisms at solid/electrolyte interfaces.