腹足纲神经细胞体中瞬时外向膜电流的电压钳研究。
Voltage clamp studies of a transient outward membrane current in gastropod neural somata.
作者信息
Connor J A, Stevens C F
出版信息
J Physiol. 1971 Feb;213(1):21-30. doi: 10.1113/jphysiol.1971.sp009365.
Abstract
- Outward directed membrane currents have been studied in voltage clamp experiments on isolated neural somata of the marine gastropod Anisodoris.2. Stepping the membrane potential from a hyperpolarized level to a value in the neighbourhood of resting potential (-35 to -50 mV at 5 degrees C) results in an outward current transient, I(A), which is apparently carried by potassium ions.3. The peak amplitude of I(A) is dependent upon both the holding voltage level and the test step voltage while the time courses of development and decay are independent of, or only slightly dependent on, these parameters.4. The developing and decaying phases of I(A) are approximated by exponentials, leading to time constants for development of 10-25 msec and for decay of 220-600 msec over the aggregate of cells studied (data at 5 degrees C). Q(10) for the processes is approximately 3.5. It is concluded that the transport mechanism for I(A) is at least operationally distinct from the mechanism underlying delayed outward current, I(K).
摘要
在外向膜电流的研究中,采用电压钳实验对海生腹足动物Anisodoris的离体神经胞体进行了研究。
将膜电位从超极化水平跃升至静息电位附近的值(5℃时为-35至-50mV),会产生一个外向电流瞬变,即I(A),它显然由钾离子携带。
I(A)的峰值幅度取决于保持电压水平和测试步阶电压,而其发展和衰减的时间进程与这些参数无关,或仅略有依赖。
I(A)的发展和衰减阶段可用指数函数近似,在所研究的细胞总体中,发展的时间常数为10-25毫秒,衰减的时间常数为220-600毫秒(5℃时的数据)。该过程的Q(10)约为3.5。得出的结论是,I(A)的转运机制至少在操作上与延迟外向电流I(K)的机制不同。
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本文引用的文献
1
A quantitative description of membrane current and its application to conduction and excitation in nerve.膜电流的定量描述及其在神经传导和兴奋中的应用。
J Physiol. 1952 Aug;117(4):500-44. doi: 10.1113/jphysiol.1952.sp004764.
2
Behavior of delayed current under voltage clamp in the supramedullary neurons of puffer.河豚延髓上神经元电压钳制下延迟电流的行为
J Gen Physiol. 1966 Mar;49(4):613-28. doi: 10.1085/jgp.49.4.613.
3
Inward and delayed outward membrane currents in isolated neural somata under voltage clamp.电压钳制下分离神经胞体中的内向和延迟外向膜电流。
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