Washio H
J Gen Physiol. 1973 Feb;61(2):176-84. doi: 10.1085/jgp.61.2.176.
The effect of glycerol treatment on the membrane currents and tension development was studied in voltage clamped snake muscle fibers. In muscle fibers which were exposed for 1 h to a normal saline containing 400 mM glycerol and then returned to a normal medium, graded depolarizations did not accompany contractile responses. However, when the fiber was depolarized to a certain level, an increment of outward current appeared which partially inactivated with time. The threshold for delayed rectification in glycerol-treated fibers was almost the same as that of intact fibers in spite of the absence of contractile tension. The results suggest that the delayed rectification may be attributed at least in part to the surface membrane and that the contractile activation probably does not depend simply on the inactivating outward currents through the delayed rectification channel.
在电压钳制的蛇肌纤维中研究了甘油处理对膜电流和张力发展的影响。将肌肉纤维暴露于含有400 mM甘油的生理盐水中1小时,然后再放回正常培养基中,此时分级去极化并未伴随收缩反应。然而,当纤维去极化到一定水平时,会出现外向电流增加,且该电流会随时间部分失活。尽管没有收缩张力,但甘油处理纤维中延迟整流的阈值与完整纤维的几乎相同。结果表明,延迟整流可能至少部分归因于表面膜,并且收缩激活可能不仅仅取决于通过延迟整流通道的失活外向电流。