Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches

膜片钳 分辨率(逻辑) 生物物理学 电流钳 材料科学 电流(流体) 化学 计算机科学 生物 电生理学 神经科学 工程类 电气工程 人工智能 生物化学
作者
Owen P. Hamill,Alain Marty,Erwin Neher,B. Sakmann,Fred J. Sigworth
出处
期刊:Pflügers Archiv: European Journal of Physiology [Springer Science+Business Media]
卷期号:391 (2): 85-100 被引量:18474
标识
DOI:10.1007/bf00656997
摘要

1. The extracellular patch clamp method, which first allowed the detection of single channel currents in biological membranes, has been further refined to enable higher current resolution, direct membrane patch potential control, and physical isolation of membrane patches. 2. A description of a convenient method for the fabrication of patch recording pipettes is given together with procedures followed to achieve giga-seals i.e. pipette-membrane seals with resistances of 10(9) - 10(11) omega. 3. The basic patch clamp recording circuit, and designs for improved frequency response are described along with the present limitations in recording the currents from single channels. 4. Procedures for preparation and recording from three representative cell types are given. Some properties of single acetylcholine-activated channels in muscle membrane are described to illustrate the improved current and time resolution achieved with giga-seals. 5. A description is given of the various ways that patches of membrane can be physically isolated from cells. This isolation enables the recording of single channel currents with well-defined solutions on both sides of the membrane. Two types of isolated cell-free patch configurations can be formed: an inside-out patch with its cytoplasmic membrane face exposed to the bath solution, and an outside-out patch with its extracellular membrane face exposed to the bath solution. 6. The application of the method for the recording of ionic currents and internal dialysis of small cells is considered. Single channel resolution can be achieved when recording from whole cells, if the cell diameter is small (less than 20 micrometer). 7. The wide range of cell types amenable to giga-seal formation is discussed.
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