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细胞内接头蛋白参与镁离子依赖的 Eag 钾通道的调节。

Intracellular linkers are involved in Mg2+-dependent modulation of the Eag potassium channel.

机构信息

Department of Biomedical Sciences, Florida State University College of Medicine, Tallahassee, FL, USA.

出版信息

Channels (Austin). 2010 Jul-Aug;4(4):311-8. doi: 10.4161/chan.4.4.12329. Epub 2010 Jul 10.

Abstract

Modulation of activation kinetics by divalent ions is one of the characteristic features of Eag channels. Here, we report that Mg(2+)-dependent deceleration of Eag channel activation is significantly attenuated by a G297E mutation, which exhibits a gain-of-function phenotype in Drosophila by suppressing the effect of shaker mutation on behavior and neuronal excitability. The G297 residue is located in the intracellular linker of transmembrane segments S2 and S3, and is thus not involved in direct binding of Mg(2+) ions. Moreover, mutation of the only positively charged residue in the other intracellular linker between S4 and S5 also results in a dramatic reduction of Mg(2+)-dependent modulation of Eag activation kinetics. Collectively, the two mutations in eag eliminate or even paradoxically reverse the effect of Mg(2+) on channel activation and inactivation kinetics. Together, these results suggest an important role of the intracellular linker regions in gating processes of Eag channels.

摘要

二价离子对激活动力学的调节是 Eag 通道的特征之一。在这里,我们报告说,G297E 突变显著减弱了 Eag 通道激活的 Mg(2+)依赖性减速,该突变通过抑制 shaker 突变对行为和神经元兴奋性的影响,在果蝇中表现出功能获得表型。G297 残基位于跨膜片段 S2 和 S3 的细胞内环中,因此不参与 Mg(2+)离子的直接结合。此外,S4 和 S5 之间另一个细胞内环中唯一带正电荷的残基的突变也导致 Eag 激活动力学的 Mg(2+)依赖性调节显著减少。总的来说,eag 中的这两个突变消除了甚至矛盾地反转了 Mg(2+)对通道激活和失活动力学的影响。这些结果表明细胞内环区在 Eag 通道门控过程中起重要作用。

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本文引用的文献

1
Divalent cations slow activation of EAG family K+ channels through direct binding to S4.
Biophys J. 2009 Jul 8;97(1):110-20. doi: 10.1016/j.bpj.2009.04.032.
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