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使用改进的圆二色性方法研究表面化学和溶液浓度对吸附蛋白质构象的影响。

Investigation of the effects of surface chemistry and solution concentration on the conformation of adsorbed proteins using an improved circular dichroism method.

作者信息

Sivaraman Balakrishnan, Fears Kenan P, Latour Robert A

机构信息

Department of Bioengineering, 501 Rhodes Engineering Research Center, Clemson University, Clemson, South Carolina 29634, USA.

出版信息

Langmuir. 2009 Mar 3;25(5):3050-6. doi: 10.1021/la8036814.

Abstract

In this paper we present the development of methods using circular dichroism spectropolarimetry with a custom-designed cuvette to increase the signal-to-noise ratio for the measurement of the secondary structure of adsorbed proteins, thus providing enhanced sensitivity and reproducibility. These methods were then applied to investigate how surface chemistry and solution concentration influence both the amount of adsorbed proteins and their secondary structure. Human fibrinogen and albumin were adsorbed onto alkanethiol self-assembled monolayers (SAMs) on gold with CH3, OCH2-CF3, NH2, COOH, and OH terminal groups from both dilute (0.1 mg/mL) and moderately concentrated (1.0 mg/mL) solutions. An increase in surface hydrophobicity was found to cause an increase in both the amount of the protein adsorbed and the degree of structural change that was caused by the adsorption process, while an increase in solution concentration caused an increase in the amount of protein adsorbed but a decrease in the degree of conformational change, with these effects being more pronounced on the more hydrophobic surfaces. The combined use of these two parameters (i.e., surface chemistry and solution concentration) thus provides ameans of independently varying the degree of structural change following adsorption from the amount of adsorbed protein. Further studies are underway to examine which of these factors most strongly influences platelet response, with the overall goal of developing a better understanding of the fundamental factors governing the hemocompatibility of biomaterial surfaces.

摘要

在本文中,我们介绍了使用圆二色光谱偏振法并结合定制比色皿来提高吸附蛋白质二级结构测量信噪比的方法的开发,从而提高了灵敏度和重现性。然后将这些方法应用于研究表面化学和溶液浓度如何影响吸附蛋白质的量及其二级结构。人纤维蛋白原和白蛋白从稀溶液(0.1 mg/mL)和中等浓度溶液(1.0 mg/mL)吸附到具有CH3、OCH2-CF3、NH2、COOH和OH端基的金表面的烷硫醇自组装单分子层(SAMs)上。发现表面疏水性的增加会导致吸附的蛋白质数量增加以及由吸附过程引起的结构变化程度增加,而溶液浓度的增加会导致吸附的蛋白质数量增加,但构象变化程度降低,这些影响在疏水性更强的表面上更为明显。因此,这两个参数(即表面化学和溶液浓度)的联合使用提供了一种方法,可以根据吸附蛋白质的量独立改变吸附后结构变化的程度。正在进行进一步的研究,以检查这些因素中哪些对血小板反应影响最大,总体目标是更好地理解控制生物材料表面血液相容性的基本因素。

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