Hyltegren Kristin, Skepö Marie
Division of Theoretical Chemistry, Lund University, P.O.B. 124, SE-221 00 Lund, Sweden.
Division of Theoretical Chemistry, Lund University, P.O.B. 124, SE-221 00 Lund, Sweden.
J Colloid Interface Sci. 2017 May 15;494:266-273. doi: 10.1016/j.jcis.2017.01.087. Epub 2017 Jan 24.
The adsorbed amount of the polyelectrolyte-like protein histatin 5 on a silica surface depends on the pH and the ionic strength of the solution. Interestingly, an increase in ionic strength affects the adsorbed amount differently depending on the pH of the solution, as shown by ellipsometry measurements (Hyltegren, 2016). We have tested the hypothesis that the same (qualitative) trends can be found also from a coarse-grained model that takes all charge-charge interactions into account within the frameworks of Gouy-Chapman and Debye-Hückel theories.
Using the same coarse-grained model as in our previous Monte Carlo study of single protein adsorption (Hyltegren, 2016), simulations of systems with many histatin 5 molecules were performed and then compared with ellipsometry measurements. The strength of the short-ranged attractive interaction between the protein and the surface was varied.
The coarse-grained model does not qualitatively reproduce the pH-dependence of the experimentally observed trends in adsorbed amount as a function of ionic strength. However, the simulations cast light on the balance between electrostatic attraction between protein and surface and electrostatic repulsion between adsorbed proteins, the deficiencies of the Langmuir isotherm, and the implications of protein charge regulation in concentrated systems.
类聚电解质蛋白组蛋白5在二氧化硅表面的吸附量取决于溶液的pH值和离子强度。有趣的是,如椭偏测量所示(希尔泰格伦,2016年),离子强度的增加对吸附量的影响因溶液的pH值而异。我们检验了这样一个假设,即在 Gouy-Chapman和Debye-Hückel理论框架内考虑所有电荷-电荷相互作用的粗粒度模型也能发现相同(定性)趋势。
使用与我们之前对单个蛋白质吸附的蒙特卡罗研究(希尔泰格伦,2016年)中相同的粗粒度模型,对含有多个组蛋白5分子的系统进行模拟,然后与椭偏测量结果进行比较。改变蛋白质与表面之间短程吸引相互作用的强度。
粗粒度模型没有定性地再现实验观察到的吸附量随离子强度变化的pH依赖性趋势。然而,模拟揭示了蛋白质与表面之间的静电吸引和吸附蛋白质之间的静电排斥之间的平衡、朗缪尔等温线的不足以及浓缩系统中蛋白质电荷调节的影响。
