介质和膜电导对外部施加电场诱导的膜电位幅度和动力学影响的分析。
Analysis of the effect of medium and membrane conductance on the amplitude and kinetics of membrane potentials induced by externally applied electric fields.
作者信息
Lojewska Z, Farkas D L, Ehrenberg B, Loew L M
机构信息
Department of Physiology, University of Connecticut Health Center, Farmington 06032.
出版信息
Biophys J. 1989 Jul;56(1):121-8. doi: 10.1016/S0006-3495(89)82657-8.
Abstract
The kinetics and amplitudes of membrane potential induced by externally applied electric field pulses are determined for a spherical lipid bilayer using a voltage-sensitive dye. Several experimental parameters were systematically varied. These included the incorporation of gramicidin into the membrane to alter its conductivity and the variation of the external electrolyte conductivity via changes in salt concentration. The ability of the solution to Laplace's equation for a spherical dielectric shell to quantitatively describe the membrane potential induced on a lipid bilayer could thus be critically evaluated. Both the amplitude and the kinetics of the induced potential were consistent with the predictions of this simple model, even at the extremes of membrane conductance or electrolyte concentration. The success of the experimental approach for this system encourages its application to more complex problems such as electroporation and the influences of external electric fields in growth and development.
摘要
使用电压敏感染料测定了外加电场脉冲诱导的球形脂质双分子层膜电位的动力学和幅度。系统地改变了几个实验参数。这些参数包括将短杆菌肽掺入膜中以改变其电导率,以及通过改变盐浓度来改变外部电解质电导率。因此,可以严格评估溶液对球形电介质壳的拉普拉斯方程定量描述脂质双分子层上诱导的膜电位的能力。即使在膜电导或电解质浓度的极端情况下,诱导电位的幅度和动力学都与这个简单模型的预测一致。该系统实验方法的成功鼓励将其应用于更复杂的问题,如电穿孔以及外部电场对生长和发育的影响。
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