Verselis V, Brink P R
Biophys J. 1986 Nov;50(5):1003-7. doi: 10.1016/S0006-3495(86)83542-1.
The effects of temperature and solvent substitution with deuterium oxide (D2O) on axoplasmic (ga) and gap junctional (gj) conductances were examined in the earthworm septate median giant axon (MGA). The temperature coefficients (Q10) for ga and gj were 1.4 and 1.5, respectively, between 5 and 15 degrees C. Substitution with D2O rapidly reduced both ga and gj by 20% and increased the Q10's to 1.5 and 1.8, respectively. The reduction in ga upon substitution with D2O and with cooling in either solvent reflects the changes that occur in solvent viscosity, which indicates that ion mobility in axoplasm, as in free solution, is primarily governed by viscous properties of the solvent. The similar initial reduction observed for gj suggests that solvent occupies the gap junction channel volume and influences transjunctional ion mobility. With time there was a further reduction in gj at 20 degrees C and a larger Q10 in D2O. The enhanced effects of D2O on gj cannot be accounted for by solvent viscosity alone and may be due to an increased hydration of the channels and/or the transport ions and by isotope effects of hydrogen-deuterium exchange on the channel protein that reduce gj.
在蚯蚓有隔膜的正中巨轴突(MGA)中,研究了温度以及用重水(D2O)替代溶剂对轴浆电导(ga)和缝隙连接电导(gj)的影响。在5至15摄氏度之间,ga和gj的温度系数(Q10)分别为1.4和1.5。用D2O替代溶剂后,ga和gj迅速降低20%,且Q10分别增加到1.5和1.8。用D2O替代以及在任一溶剂中冷却时ga的降低反映了溶剂粘度的变化,这表明轴浆中的离子迁移率,如同在自由溶液中一样,主要受溶剂粘性特性的支配。gj观察到的类似初始降低表明溶剂占据了缝隙连接通道体积并影响跨连接离子迁移率。随着时间推移,在20摄氏度时gj进一步降低,且在D2O中Q10更大。D2O对gj增强的影响不能仅由溶剂粘度来解释,可能是由于通道和/或运输离子水化增加以及氢 - 氘交换对通道蛋白的同位素效应降低了gj。