Large-conductance Ca2+-activated K+ channels in freshly dissociated smooth muscle cells.

J J Singer, J V Walsh
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引用次数: 20

Abstract

Freshly dissociated cells from the stomach muscularis of the toad Bufo marinus have been employed to carry out a systematic set of electrophysiological studies on the membrane properties of smooth muscle. The existence of Ca2+-activated K+ channels became apparent during the first studies under current clamp. In subsequent studies under voltage clamp, a Ca2+-activated. TEA-sensitive outward current was evident, and it was more than an order of magnitude larger than any other current observed in the cells. The channel responsible, at least in part, for this large outward current has been identified on the basis of single-channel records, and some of its main characteristics have been studied. It is similar in many respects to the large-conductance, Ca2+-activated K+ channel seen in other preparations. This channel has now been found in a considerable diversity of smooth muscle types.

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新解离的平滑肌细胞中大电导Ca2+激活的K+通道。
利用蟾蜍(Bufo marinus)胃肌层新鲜分离的细胞,对其平滑肌膜特性进行了系统的电生理研究。在电流箝位下的第一次研究中,Ca2+激活的K+通道的存在变得明显。在随后的研究中,在电压箝位下,一个Ca2+激活。tea敏感的外向电流是明显的,它比在细胞中观察到的任何其他电流都要大一个数量级。在单通道记录的基础上,至少部分地确定了造成这种向外大电流的通道,并研究了它的一些主要特征。它在许多方面类似于在其他制剂中看到的大电导,Ca2+活化的K+通道。现在已经在各种类型的平滑肌中发现了这种通道。
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