大鼠和人类骨骼肌的电压钳制：采用改良的膜片松散钳技术进行测量。

Voltage clamp of rat and human skeletal muscle: measurements with an improved loose-patch technique.

作者信息

Almers W, Roberts W M, Ruff R L

出版信息

J Physiol. 1984 Feb;347:751-68. doi: 10.1113/jphysiol.1984.sp015094.

DOI:10.1113/jphysiol.1984.sp015094

PMID:6323705

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1199475/

Abstract

Intact fibres of human intercostal and rat omohyoid muscles were studied at 23 degree C with a loose-patch voltage-clamp technique that employed two concentric micropipettes to electrically isolate small-diameter (10-15 microns) patches of sarcolemma. This method allows investigation of membrane excitability under highly physiological conditions. Step depolarizations to 0 mV elicited sodium inward currents that reached peak values of up to 20 mA/cm2 within 250 microseconds, and then declined. In human muscle, the reversal potential (ENa) was approximately 40 mV, and maximal conductances (GNa) ranged from 44 to 360 mS/cm2. In rat muscle, ENa was 42 mV and GNa ranged from 100 to 250 mS/cm2. Sodium channels in rat and human muscle were indistinguishable in most aspects of their kinetic behaviour and voltage dependence. Outward potassium currents were small by comparison (usually less than 2 mA/cm2) and saturated at positive potentials. The maximum potassium conductance (GK) ranged from 0 to 19 mS/cm2 (human) and from 4 to 12 mS/cm2 (rat muscle).

摘要

采用一种宽松膜片钳技术，在23摄氏度下对人肋间肌和大鼠肩胛舌骨肌的完整纤维进行了研究。该技术使用两个同心微电极从电上将小直径（10 - 15微米）的肌膜片分离出来。这种方法能够在高度生理条件下研究膜的兴奋性。向0 mV的阶跃去极化引发钠内向电流，该电流在250微秒内达到高达20 mA/cm²的峰值，然后下降。在人体肌肉中，反转电位（ENa）约为40 mV，最大电导（GNa）范围为44至360 mS/cm²。在大鼠肌肉中，ENa为42 mV，GNa范围为100至250 mS/cm²。大鼠和人体肌肉中的钠通道在其动力学行为和电压依赖性的大多数方面难以区分。相比之下，外向钾电流较小（通常小于2 mA/cm²），并且在正电位时达到饱和。最大钾电导（GK）范围为0至19 mS/cm²（人体）和4至12 mS/cm²（大鼠肌肉）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2466/1199475/456d037c2e76/jphysiol00644-0764-a.jpg

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大鼠和人类骨骼肌的电压钳制：采用改良的膜片松散钳技术进行测量。

Voltage clamp of rat and human skeletal muscle: measurements with an improved loose-patch technique.

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