鱿鱼和龙虾巨轴突的表面电荷。
Surface charge of giant axons of squid and lobster.
作者信息
Segal J R
出版信息
Biophys J. 1968 Apr;8(4):470-89. doi: 10.1016/S0006-3495(68)86501-4.
A method is described for the determination of the electrophoretic mobility of single, isolated, intact, giant axons of squid and lobster. In normal physiological solutions, the surface of hydrodynamic shear of these axons is negatively charged. The lower limit of the estimated surface charge density is -1.9 x 10(-8) coul cm(-2) for squid axons, -4.2 x 10(-8) coul cm(-2) for lobster axons. The electrophoretic mobility of squid axons decreases greatly when the applied transaxial electric field is made sufficiently intense; action potential propagation is blocked irreversibly by transaxial electric fields of the same intensity. The squid axon recovers its mobility hours later and is then less affected by transaxial fields. Eventually, a state is reached in which the transaxial field irreversibly reverses the sign of the surface charge. In contrast, there is no obvious effect of electric field on the mobility of lobster axons. The mobility of lobster axons becomes undetectable in the presence of Th(4+) at a concentration which blocks the action potential, and in the presence of La(3+) at a concentration which does not affect propagation. Quinine does not alter lobster axon mobility at a concentration which blocks action potential conduction. Replacement of extracellular Na(+) by K(+) is without effect upon lobster axon mobility. The electrophysiological implications of the results are discussed.
本文描述了一种测定鱿鱼和龙虾单个、分离、完整的巨型轴突电泳迁移率的方法。在正常生理溶液中,这些轴突的流体动力学剪切表面带负电荷。鱿鱼轴突估计表面电荷密度的下限为-1.9×10⁻⁸库仑/厘米²,龙虾轴突为-4.2×10⁻⁸库仑/厘米²。当施加的跨轴电场强度足够大时,鱿鱼轴突的电泳迁移率会大幅下降;相同强度的跨轴电场会不可逆地阻断动作电位的传播。数小时后,鱿鱼轴突恢复其迁移率,此时受跨轴电场的影响较小。最终会达到一种状态,即跨轴电场不可逆地反转表面电荷的符号。相比之下,电场对龙虾轴突的迁移率没有明显影响。在能阻断动作电位的钍(Ⅳ)离子浓度存在下以及在不影响动作电位传播的镧(Ⅲ)离子浓度存在下,龙虾轴突的迁移率变得无法检测。在能阻断动作电位传导的奎宁浓度下,奎宁不会改变龙虾轴突的迁移率。用钾离子替代细胞外钠离子对龙虾轴突的迁移率没有影响。文中讨论了这些结果的电生理意义。
Zotero 插件