青蛙慢肌纤维的静息电位和电特性。不同外部溶液的影响。
Resting potential and electrical properties of frog slow muscle fibres. Effect of different external solutions.
作者信息
Stefani E, Steinbach A B
出版信息
J Physiol. 1969 Aug;203(2):383-401. doi: 10.1113/jphysiol.1969.sp008869.
Abstract
- The electrical properties of frog slow muscle fibres were investigated with intracellular micropipettes to determine their characteristic length (lambda), specific membrane resistance (R(m)) and specific membrane capacitance.2. The value of lambda was about 1 cm in fibres of 1.2 cm length. The ;short cable model' was used to calculate R(m). Its mean value was 1.12 x 10(5) ohm cm(2), about 10-20 times larger than the value for twitch fibres. The mean value for C(m) was 3.24 x 10(-6) F/cm(2).3. Resting potentials measured immediately after penetration with a single micropipette were about - 80 mV. Lower values can be attributed to the effects of damage or leakage produced by micropipette insertion.4. Changes in external K concentration produced changes in the initially recorded resting potentials which follow the constant field theory using a ratio of Na: K permeabilities P(Na)/P(K) = 0.02. Changes in external Cl concentration produced little or no change in the resting potential or membrane resistance, indicating a low Cl permeability.5. In agreement with previous work, slow fibres showed a time-dependent decrease in resistance (;delayed rectification') for membrane potentials more positive than - 60 mV. ;Anomalous rectification' observed in twitch fibres was not seen in slow fibres. In high external K concentrations the resistance of slow fibres is almost unaffected by changes in membrane potential.6. Increasing the concentration of external Ca (up to isotonic) has two distinct effects on slow fibres. It increases R(m) up to ten times, and it improves the stability of trans-membrane recordings, probably by reducing the leakage due to micropipette penetrations. Magnesium does not appear to have either of these effects.
摘要
用细胞内微电极研究了青蛙慢肌纤维的电学特性,以确定其特征长度(λ)、比膜电阻(R(m))和比膜电容。
长度为1.2厘米的纤维中,λ值约为1厘米。采用“短电缆模型”计算R(m)。其平均值为1.12×10⁵欧姆·厘米²,约为快肌纤维值的10 - 20倍。C(m)的平均值为3.24×10⁻⁶法/厘米²。
用单个微电极刺入后立即测得的静息电位约为 - 80毫伏。较低的值可归因于微电极插入造成的损伤或泄漏效应。
外部钾浓度的变化会使最初记录的静息电位发生变化,这符合使用钠钾渗透率比P(Na)/P(K)=0.02的恒定场理论。外部氯浓度的变化对静息电位或膜电阻几乎没有影响,表明氯渗透率较低。
与先前的研究一致,慢肌纤维在膜电位高于 - 60毫伏时表现出随时间变化的电阻降低(“延迟整流”)。在慢肌纤维中未观察到快肌纤维中出现的“反常整流”。在高外部钾浓度下,慢肌纤维的电阻几乎不受膜电位变化的影响。
增加外部钙的浓度(直至等渗)对慢肌纤维有两种不同的影响。它使R(m)增加多达十倍,并且可能通过减少微电极刺入引起的泄漏来提高跨膜记录的稳定性。镁似乎没有这些作用中的任何一种。
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