测定SecY蛋白转运通道对小分子的电导率。

Determining the conductance of the SecY protein translocation channel for small molecules.

作者信息

Saparov Sapar M, Erlandson Karl, Cannon Kurt, Schaletzky Julia, Schulman Sol, Rapoport Tom A, Pohl Peter

机构信息

Institut fuer Biophysik, Johannes Kepler Universitaet Linz, Linz, Austria.

出版信息

Mol Cell. 2007 May 25;26(4):501-9. doi: 10.1016/j.molcel.2007.03.022.

DOI:10.1016/j.molcel.2007.03.022

PMID:17531809

Abstract

The channel formed by the SecY complex must maintain the membrane barrier for ions and other small molecules during the translocation of membrane or secretory proteins. We have tested the permeability of the channel by using planar bilayers containing reconstituted purified E. coli SecY complex. Wild-type SecY complex did not show any conductance for ions or water. Deletion of the "plug," a short helix normally located in the center of the SecY complex, or modification of a cysteine introduced into the plug resulted in transient channel openings; a similar effect was seen with a mutation in the pore ring, a constriction in the center of the channel. Permanent channel opening occurred when the plug was moved out of the way by disulfide-bridge formation. These data show that the resting channel on its own forms a barrier for small molecules, with both the pore ring and the plug required for the seal; channel opening requires movement of the plug.

摘要

在膜蛋白或分泌蛋白转运过程中，SecY复合物形成的通道必须维持对离子和其他小分子的膜屏障作用。我们通过使用含有重组纯化大肠杆菌SecY复合物的平面双层膜来测试该通道的通透性。野生型SecY复合物对离子或水均无任何电导。缺失通常位于SecY复合物中心的短螺旋“塞子”，或对引入到塞子中的半胱氨酸进行修饰，会导致通道短暂开放；通道中心的缩窄区域——孔环发生突变时也会出现类似效果。当通过形成二硫键将塞子移开时，会出现永久性通道开放。这些数据表明，静止状态的通道自身就形成了对小分子的屏障，孔环和塞子对于通道封闭都是必需的；通道开放需要塞子的移动。

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测定SecY蛋白转运通道对小分子的电导率。

Determining the conductance of the SecY protein translocation channel for small molecules.

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