超声对用微电极测量的平面双层脂质膜附近未搅拌层中pH分布的影响。

Effect of ultrasound on the pH profiles in the unstirred layers near planar bilayer lipid membranes measured by microelectrodes.

作者信息

Pohl P, Antonenko Y N, Rosenfeld E

机构信息

Department of Medical Physics and Biophysics, Martin Luther University, Halle, Germany.

出版信息

Biochim Biophys Acta. 1993 Oct 10;1152(1):155-60. doi: 10.1016/0005-2736(93)90242-r.

DOI:10.1016/0005-2736(93)90242-r

PMID:8399294

Abstract

A pH shift in the unstirred layers (USLs) near a planar lipid bilayer membrane was induced by the diffusion of acetic acid along a concentration gradient. By means of a microelectrode technique it was shown that ultrasound decreases the thickness of the USL and that this reduction was much more pronounced on the side facing the ultrasound transducer than on the opposite side of the membrane. The effect depending on sound frequency and pressure is caused by the unidirectional fluid flow built up between transducer surface and membrane, the so-called quartz wind. Theoretical considerations based on the equations of the acoustic streaming near interfaces combined with the diffusion equation allow to predict the thickness of the USL if the sound field parameters are known.

摘要

乙酸沿浓度梯度扩散，在平面脂质双分子层膜附近的未搅拌层（USLs）中引起pH值变化。通过微电极技术表明，超声可减小未搅拌层的厚度，且这种减小在面向超声换能器的一侧比在膜的另一侧更为明显。这种取决于声频和压力的效应是由换能器表面与膜之间形成的单向流体流动（即所谓的石英风）引起的。基于界面附近声流方程与扩散方程相结合的理论考虑，如果已知声场参数，就可以预测未搅拌层的厚度。

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超声对用微电极测量的平面双层脂质膜附近未搅拌层中pH分布的影响。

Effect of ultrasound on the pH profiles in the unstirred layers near planar bilayer lipid membranes measured by microelectrodes.

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