Tarr M
J Gen Physiol. 1971 Nov;58(5):523-43. doi: 10.1085/jgp.58.5.523.
The double sucrose-gap voltage-clamp technique was applied to frog atrial tissue to investigate the ionic currents responsible for the action potential in this tissue. Membrane depolarization elicited two distinct components of inward current when the test node was exposed to normal Ringer solution: a fast inward current and a slow inward current. The fast inward current appeared to be carried by sodium ions, since it was rapidly abolished by exposure of the fiber to Na(+)-free solution or tetrodotoxin but persisted on exposure to Ca(++)-free solution. In contrast, in the majority of the preparations the slow inward current appeared to be primarily carried by calcium ions, since it was abolished on exposure of the fiber to Ca(++)-free solution but persisted on exposure to Na(+)-free solution. Action potential data supported the voltage-clamp findings. The normal action potential shows two distinct components in the upstroke phase: an initial rapid phase of depolarization followed by a slower phase of depolarization reaching the peak of the action potential. Abolition of the fast inward current resulted in abolition of the initial rapid phase of depolarization. Abolition of the slow inward current resulted in abolition of the slow phase of depolarization. These data support the hypothesis that two distinct and different ionic mechanisms contribute to the upstroke phase of the action potential in frog atrial tissue.
采用双蔗糖间隙电压钳技术对蛙心房组织进行研究,以探究该组织动作电位所涉及的离子电流。当测试节点暴露于正常任氏液时,膜去极化引发了两种不同的内向电流成分:快速内向电流和缓慢内向电流。快速内向电流似乎由钠离子携带,因为当纤维暴露于无钠溶液或河豚毒素时,该电流迅速消失,但暴露于无钙溶液时仍持续存在。相反,在大多数标本中,缓慢内向电流似乎主要由钙离子携带,因为当纤维暴露于无钙溶液时该电流消失,但暴露于无钠溶液时仍持续存在。动作电位数据支持电压钳实验结果。正常动作电位在上升相显示出两个不同的成分:初始的快速去极化相,随后是较慢的去极化相,直至达到动作电位的峰值。快速内向电流的消除导致初始快速去极化相的消失。缓慢内向电流的消除导致缓慢去极化相的消失。这些数据支持了这样一种假说,即两种不同的离子机制参与了蛙心房组织动作电位的上升相。