来自林蛙骨骼肌纤维中的快速电荷移动。

Fast charge movements in skeletal muscle fibres from Rana temporaria.

作者信息

Collins C A, Rojas E, Suarez-Isla B A

出版信息

J Physiol. 1982 Mar;324:319-45. doi: 10.1113/jphysiol.1982.sp014115.

DOI:10.1113/jphysiol.1982.sp014115

PMID:6980274

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1250708/

Abstract

Fast charge movements were measured in cut skeletal muscle fibres from Rana temporaria.2. The initial time course of the current in response to a sudden displacement of the membrane potential from -110 to -60 mV was analysed in terms of an electrical equivalent circuit modified from Falk & Fatt (1964).3. The specific resistance in series with the sarcolemma was estimated as 7.4 Omega cm(2). The total capacity (surface sarcolemma plus tubular membrane) was estimated as 3.43 muF/cm(2).4. The asymmetry currents settling within 1 ms during depolarizing pulses of increasing size (on-response), from a holding potential around -120 mV, could be described in terms of a single exponential. The asymmetry currents after the pulses (off-response) exhibited at least two components.5. The integral of the on-response, Q(on), as a function of V(p), could be fitted using a function of the Boltzmann type. At the mid-point of the distribution curve, equal to -38 mV, the slope was 0.012 mV(-1). A saturating value of 28 pC was reached at 40 mV.6. The off-response to pulses not exceeding 3 ms exhibited two components. The first one had an exponential time course. The charge Q(off) associated with this fast component was always equal to Q(on).7. tau(on) (the relaxation time constant), as a function of membrane potential was asymmetrical, exhibiting a maximum value of 233 mus at about -38 mV.8. For V(p) values smaller than -20 mV the Q(on)-V(p) and tau(on)-V(p) curves could be analysed using the two-state transition model. From this analysis the average transition potential V' was estimated as -38 mV and the effective valence of the mobile charges as 1.36.9. Double-pulse protocols (duration of pre-pulses referred to as T in the range 0-3 s) showed that Q(on) and tau(on) decreased as T increased. Single transient analysis shows that the changes are confined to the transient for depolarizing pulses.10. This immobilization of the charges is reversible and follows a similar time course to the slow inactivation of the Na(+) conductance described in the preceding paper.11. A differential effect of the depolarizing pre-pulse on the ionic and asymmetry currents is seen in the decrease of tau(on) with increasing T while tau(m) remains constant.

摘要

在林蛙的离体骨骼肌纤维中测量了快速电荷移动。
根据Falk和Fatt（1964年）修改后的等效电路，分析了膜电位从-110 mV突然跃变到-60 mV时电流的初始时间进程。
与肌膜串联的比电阻估计为7.4Ω·cm²。总电容（肌膜表面加横管膜）估计为3.43μF/cm²。
在从约-120 mV的静息电位开始的逐渐增大的去极化脉冲期间（开启响应），1 ms内稳定的不对称电流可用单指数函数描述。脉冲后的不对称电流（关闭响应）至少表现出两个成分。
开启响应的积分Q(on)作为V(p)的函数，可以用玻尔兹曼类型的函数拟合。在分布曲线的中点，等于-38 mV，斜率为0.012 mV⁻¹。在40 mV时达到饱和值28 pC。
对不超过3 ms的脉冲的关闭响应表现出两个成分。第一个成分具有指数时间进程。与这个快速成分相关的电荷Q(off)总是等于Q(on)。
τ(on)（弛豫时间常数）作为膜电位的函数是不对称的，在约-38 mV处表现出最大值233μs。
对于小于-20 mV的V(p)值，可以使用双态转变模型分析Q(on)-V(p)和τ(on)-V(p)曲线。通过该分析，平均转变电位V'估计为-38 mV，移动电荷的有效价为1.36。
双脉冲方案（预脉冲持续时间在0 - 3 s范围内称为T）表明，Q(on)和τ(on)随T增加而减小。单瞬态分析表明，变化仅限于去极化脉冲的瞬态。
这种电荷的固定是可逆的，并且与前一篇论文中描述的Na⁺电导的缓慢失活具有相似的时间进程。
去极化预脉冲对离子电流和不对称电流有不同的影响，表现为随着T增加，τ(on)减小，而τ(m)保持不变。