脂质双分子层膜中疏水性离子间的静电相互作用。
Electrostatic interactions among hydrophobic ions in lipid bilayer membranes.
作者信息
Andersen O S, Feldberg S, Nakadomari H, Levy S, McLaughlin S
出版信息
Biophys J. 1978 Jan;21(1):35-70. doi: 10.1016/S0006-3495(78)85507-6.
Abstract
We have shown that the absorption of tetraphenylborate into black lipid membranes formed from either bacterial phosphatidylethanolamine or glycerolmonooleate produces concentration-dependent changes in the electrostatic potential between the membrane interior and the bulk aqueous phases. These potential changes were studied by a variety of techniques: voltage clamp, charge pulse, and "probe" measurements on black lipid membranes; electrophroetic mobility measurements on phospholipid vesicles; and surface potential measurements on phospholipid monolayers. The magnitude of the potential changes indicates that tetraphenylborate absorbs into a region of the membrane with a low dielectric constant, where it produces substantial boundary potentials, as first suggested by Markin et al. (1971). Many features of our data can be explained by a simple three-capacitor model, which we develop in a self-consistent manner. Some discrepancies between our data and the simple model suggest that discrete charge phenomena may be important within these thin membranes.
摘要
我们已经表明,四苯硼酸盐进入由细菌磷脂酰乙醇胺或甘油单油酸酯形成的黑色脂质膜后,会使膜内部与本体水相之间的静电势产生浓度依赖性变化。通过多种技术研究了这些电势变化:对黑色脂质膜进行电压钳制、电荷脉冲和“探针”测量;对磷脂囊泡进行电泳迁移率测量;以及对磷脂单层进行表面电势测量。电势变化的幅度表明,四苯硼酸盐吸收到膜的低介电常数区域,在该区域产生大量的边界电势,正如马尔金等人(1971年)首次提出的那样。我们数据的许多特征可以用一个简单的三电容模型来解释,我们以自洽的方式建立了这个模型。我们的数据与简单模型之间的一些差异表明,离散电荷现象在这些薄膜中可能很重要。
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