在低离子含量介质中对青蛙骨骼肌进行膜容量测量。
Membrane capacity measurements on frog skeletal muscle in media of low ion content.
作者信息
Adrian R H, Almers W
出版信息
J Physiol. 1974 Mar;237(3):573-605. doi: 10.1113/jphysiol.1974.sp010499.
Abstract
- A voltage-clamp technique for the measurement of effective membrane capacity is described and its theoretical basis given in an Appendix. Unlike most other methods used so far, the present technique does not depend on the assumption of a particular equivalent circuit for muscle membrane.2. With this technique, we have re-examined the effect of media of low ion content on the effective membrane capacity C(eff). In fibres where potassium conductance is blocked by Rb, C(eff) failed to show any appreciable dependence on ionic strength (between 0.015 and 0.29 M) or conductivity (between 0.86 and 13.4 mmho/cm) of the bathing medium.3. Low conductivity can reduce C(eff) in fibres of moderately high K-conductance. However, in all cases explored here, C(eff) had values well above the 2 muF/cm(2) found in glycerol-treated fibres, indicating that passive spread of potential displacements from surface into the tubular system could still occur.4. The changes in C(eff) observed under conditions of moderately high K-conductance are explicable as a result of potential decrements in the transverse tubules, which would be expected when the wall conductance there is high, and the conductivity of the tubule lumen is low.
摘要
本文描述了一种用于测量有效膜电容的电压钳技术,并在附录中给出了其理论基础。与迄今为止使用的大多数其他方法不同,本技术不依赖于对肌膜特定等效电路的假设。
用这种技术,我们重新研究了低离子含量介质对有效膜电容C(eff)的影响。在钾电导被铷阻断的纤维中,C(eff)对浴液介质的离子强度(在0.015至0.29M之间)或电导率(在0.86至13.4毫欧/厘米之间)未显示出任何明显的依赖性。
低电导率可降低中等高钾电导纤维中的C(eff)。然而,在这里探索的所有情况下,C(eff)的值远高于在甘油处理纤维中发现的2微法/厘米²,这表明电位位移从表面到管状系统的被动传播仍然可以发生。
在中等高钾电导条件下观察到的C(eff)变化可以解释为横向小管中电位降低的结果,当那里的壁电导高且小管腔电导率低时,预计会出现这种情况。
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