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心肌肌浆网钾通道是一种多离子通道。

Potassium channel of cardiac sarcoplasmic reticulum is a multi-ion channel.

作者信息

Hill J A, Coronado R, Strauss H C

机构信息

Department of Medicine, Duke University Medical Center, Durham, North Carolina 27710.

出版信息

Biophys J. 1989 Jan;55(1):35-45. doi: 10.1016/S0006-3495(89)82778-X.

Abstract

We have characterized mechanisms of ionic permeation in the K channel of canine cardiac sarcoplasmic reticulum (SR K channel). Ionic selectivity, as measured by relative permeabilities, followed Eisenman sequence l, a low field strength sequence. Slope conductance measured in symmetrical solutions across the bilayer followed Eisenman sequence V. In all cases, the selectivity characteristics of the prominent subconductance state (O1) were similar to those of the main-state (O2). Further, our studies have revealed that this channel differs in three significant ways from the highly characterized SR K channel of skeletal muscle. First, the ratio of permeabilities Cs+ to K+ was a complex function of ion concentration. Second, the concentration dependence of conductance was not well described by the Michaelis-Menten formalism. Instead, we modeled the observed relations using a more general approach based on classical rate theory. Third, mole fraction experiments (Cs+ with K+) demonstrated a prominent anomalous effect. Certain of our Cs+ data required the Eyring rate theory approach for adequate interpretation. We adopted a symmetrical energy profile incorporating ion-ion interaction and thereby accounted for much of the data. We conclude that the canine cardiac SR K channel is significantly different from that of skeletal muscle, and it may accommodate more than one ion at a time.

摘要

我们已经对犬心肌肌浆网钾通道(SR钾通道)中的离子通透机制进行了表征。通过相对渗透率测量的离子选择性遵循艾森曼序列I,即低场强序列。在跨双层的对称溶液中测量的斜率电导遵循艾森曼序列V。在所有情况下,显著亚电导状态(O1)的选择性特征与主要状态(O2)相似。此外,我们的研究表明,该通道在三个重要方面与特征明确的骨骼肌SR钾通道不同。第一,Cs+与K+的渗透率之比是离子浓度的复杂函数。第二,米氏形式不能很好地描述电导的浓度依赖性。相反,我们使用基于经典速率理论的更通用方法对观察到的关系进行建模。第三,摩尔分数实验(Cs+与K+)显示出显著的异常效应。我们的某些Cs+数据需要采用艾林速率理论方法才能得到充分解释。我们采用了包含离子-离子相互作用的对称能量分布,从而解释了大部分数据。我们得出结论,犬心肌SR钾通道与骨骼肌的SR钾通道有显著差异,并且它可能一次容纳不止一种离子。

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