乙酰胆碱电位及其分子成分的统计学性质。
The statistical nature of the acetycholine potential and its molecular components.
作者信息
Katz B, Miledi R
出版信息
J Physiol. 1972 Aug;224(3):665-99. doi: 10.1113/jphysiol.1972.sp009918.
Abstract
- When a steady dose of acetylcholine (ACh) is applied to an end-plate, the resulting depolarization is accompanied by a significant increase in voltage noise.2. The characteristic properties of this ACh noise (amplitude and time course) are examined under various experimental conditions. The voltage noise is analysed on the assumption that it arises from statistical fluctuations in reaction rate, and in the frequency of the elementary current pulses (;shot effects') produced by the action of ACh molecules.3. The elementary ACh current pulse (amplitude approximately 10(-11) A), arises from a conductance change of the order of 10(-10) Omega(-1) which lasts for approximately 1 ms (at 20 degrees C), and produces a minute depolarization, of the order of 0.3 muV. It is associated with a net charge transfer of nearly 10(-14) C, equivalent to approximately 5 x 10(4) univalent ions.4. At low temperature, and during chronic denervation, the duration of the elementary current pulse increases, and the elementary voltage change becomes correspondingly larger.5. Curare has little or no effect on the characteristics of the elementary event.6. A comparative study of ACh and carbachol actions shows that carbachol produces considerably briefer, and therefore less effective, current pulses than ACh.
摘要
当向终板施加稳定剂量的乙酰胆碱(ACh)时,由此产生的去极化伴随着电压噪声的显著增加。
在各种实验条件下研究这种ACh噪声的特征特性(幅度和时间进程)。对电压噪声进行分析时假定它源于反应速率的统计波动以及ACh分子作用产生的基本电流脉冲频率(散粒效应)。
基本的ACh电流脉冲(幅度约为10^(-11) A)源于约10^(-10) Ω^(-1) 的电导变化,持续约1 ms(在20℃时),并产生约0.3 μV的微小去极化。它与近10^(-14) C的净电荷转移相关,相当于约5×10^4个单价离子。
在低温下以及慢性去神经支配期间,基本电流脉冲的持续时间增加,基本电压变化相应变大。
箭毒对基本事件的特征几乎没有影响。
对ACh和卡巴胆碱作用的比较研究表明,卡巴胆碱产生的电流脉冲比ACh短得多,因此效果也较差。
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