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卤化物阴离子通过磷脂双分子层的渗透是通过溶解扩散机制发生的。

Permeation of halide anions through phospholipid bilayers occurs by the solubility-diffusion mechanism.

作者信息

Paula S, Volkov A G, Deamer D W

机构信息

Department of Chemistry and Biochemistry, University of California, Santa Cruz 95064, USA.

出版信息

Biophys J. 1998 Jan;74(1):319-27. doi: 10.1016/S0006-3495(98)77789-6.

Abstract

Two alternative mechanisms are frequently used to describe ionic permeation of lipid bilayers. In the first, ions partition into the hydrophobic phase and then diffuse across (the solubility-diffusion mechanism). The second mechanism assumes that ions traverse the bilayer through transient hydrophilic defects caused by thermal fluctuations (the pore mechanism). The theoretical predictions made by both models were tested for halide anions by measuring the permeability coefficients for chloride, bromide, and iodide as a function of bilayer thickness, ionic radius, and sign of charge. To vary the bilayer thickness systematically, liposomes were prepared from monounsaturated phosphatidylcholines (PC) with chain lengths between 16 and 24 carbon atoms. The fluorescent dye MQAE (N-(ethoxycarbonylmethyl)-6-methoxyquinolinium bromide) served as an indicator for halide concentration inside the liposomes and was used to follow the kinetics of halide flux across the bilayer membranes. The observed permeability coefficients ranged from 10(-9) to 10(-7) cm/s and increased as the bilayer thickness was reduced. Bromide was found to permeate approximately six times faster than chloride through bilayers of identical thickness, and iodide permeated three to four times faster than bromide. The dependence of the halide permeability coefficients on bilayer thickness and on ionic size were consistent with permeation of hydrated ions by a solubility-diffusion mechanism rather than through transient pores. Halide permeation therefore differs from that of a monovalent cation such as potassium, which has been accounted for by a combination of the two mechanisms depending on bilayer thickness.

摘要

通常使用两种不同的机制来描述脂质双层的离子渗透。第一种机制是,离子分配到疏水相中,然后扩散穿过(溶解-扩散机制)。第二种机制假定离子通过热涨落引起的瞬时亲水缺陷穿过双层(孔道机制)。通过测量氯离子、溴离子和碘离子的渗透系数作为双层厚度、离子半径和电荷符号的函数,对这两种模型所做的理论预测进行了卤化物阴离子测试。为了系统地改变双层厚度,用链长在16至24个碳原子之间的单不饱和磷脂酰胆碱(PC)制备脂质体。荧光染料MQAE(N-(乙氧羰基甲基)-6-甲氧基喹啉溴化物)用作脂质体内卤化物浓度的指示剂,并用于跟踪卤化物跨双层膜的通量动力学。观察到的渗透系数范围为10^(-9)至10^(-7) cm/s,并随着双层厚度的减小而增加。发现溴离子通过相同厚度的双层的渗透速度比氯离子快约六倍,碘离子的渗透速度比溴离子快三至四倍。卤化物渗透系数对双层厚度和离子大小的依赖性与水合离子通过溶解-扩散机制而非通过瞬时孔道的渗透一致。因此,卤化物的渗透不同于单价阳离子如钾的渗透,钾的渗透已根据双层厚度由两种机制的组合来解释。

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