普鲁卡因终板电位中钠电导和钾电导的分析。

The effect of procaine on neuromuscular transmission was studied on the sartorius muscle of the frog, Rana pipiens, with intracellular microelectrodes.2. Mean quantal content of the e.p.p. in high Mg Ringer was little affected by procaine.3. The short circuit effect of the e.p.p. on the action potential, which was an indication of change in potassium conductance (Deltag(K)) during the e.p.p., was investigated on the muscle fibre immobilized in hypertonic Ringer. It was found that procaine had little effect on Deltag(K).4. The equilibrium potential of the e.p.p. (E(e.p.p.)) was measured in hypertonic Ringer. E(e.p.p.) was 12 mV in control experiment and was decreased to 3.1 mV in 10(-4) procaine. The ratio Deltag(Na)/Deltag(K) was calculated to be 2.75 in control and 2.11 in 10(-4) procaine.5. E.p.p.s were recorded extracellularly to study changes in the time course of Deltag(Na) in procaine. Procaine reduced the peak magnitude of Deltag(Na); following the peak, Deltag(Na) fell quickly to a lower level, which decayed much more slowly.6. An end-plate model with separate sodium and potassium pathways is proposed to explain the procaine e.p.p. Procaine is assumed to affect the time course of Deltag(Na).7. E.p.p.s simulated from the proposed end-plate model with theoretical Deltag(Na) and Deltag(K) agreed satisfactorily with actual procaine e.p.p.

采用细胞内微电极技术，在豹蛙的缝匠肌上研究了普鲁卡因对神经肌肉传递的影响。
高镁林格液中终板电位的平均量子含量受普鲁卡因的影响较小。
在固定于高渗林格液中的肌纤维上，研究了终板电位对动作电位的短路效应，该效应可指示终板电位期间钾电导（Δg(K)）的变化。发现普鲁卡因对Δg(K)影响较小。
在高渗林格液中测量了终板电位的平衡电位（E(e.p.p.)）。对照实验中E(e.p.p.)为12 mV，在10⁻⁴ 普鲁卡因中降至3.1 mV。计算得出对照中Δg(Na)/Δg(K)的比值为2.75，在10⁻⁴ 普鲁卡因中为2.11。
细胞外记录终板电位以研究普鲁卡因中Δg(Na)时间进程的变化。普鲁卡因降低了Δg(Na)的峰值幅度；峰值出现后，Δg(Na)迅速降至较低水平，且衰减慢得多。
提出了一个具有独立钠和钾通道的终板模型来解释普鲁卡因终板电位。假定普鲁卡因影响Δg(Na)的时间进程。
用理论上的Δg(Na)和Δg(K)从所提出的终板模型模拟的终板电位与实际的普鲁卡因终板电位吻合良好。

Analysis of sodium and potassium conductances in the procaine end-plate potential.