大肠杆菌素利用天然无序状态进入细胞：转位的搭便车指南。

Colicins exploit native disorder to gain cell entry: a hitchhiker's guide to translocation.

作者信息

Bonsor Daniel A, Meenan Nicola A, Kleanthous Colin

机构信息

Department of Biology Area 10, University of York, Heslington, York, UK.

出版信息

Biochem Soc Trans. 2008 Dec;36(Pt 6):1409-13. doi: 10.1042/BST0361409.

DOI:10.1042/BST0361409

PMID:19021565

Abstract

The translocation of protein toxins into a cell relies on a myriad of protein-protein interactions. One such group of toxins are enzymatic E colicins, protein antibiotics produced by Escherichia coli in times of stress. These proteins subvert ordinary nutrient uptake mechanisms to enter the cell and unleash nuclease activity. We, and others, have previously shown that uptake of ColE9 (colicin E9) is dependent on engagement of the OM (outer membrane) receptors BtuB and OmpF as well as recruitment of the periplasmic protein TolB, forming a large supramolecular complex. Intriguingly, colicins bind TolB using a natively disordered region to mimic the interaction of TolB with Pal (peptidoglycan-associated lipoprotein). This is thought to trigger OM instability and prime the system for translocation. Here, we review key interactions in the assembly of this 'colicin translocon' and discuss the key role disorder plays in achieving uptake.

摘要

蛋白质毒素向细胞内的转运依赖于众多的蛋白质-蛋白质相互作用。其中一类毒素是具有酶活性的大肠杆菌素，它是大肠杆菌在应激状态下产生的蛋白质类抗生素。这些蛋白质会破坏正常的营养物质摄取机制从而进入细胞并释放核酸酶活性。我们以及其他研究人员之前已经表明，ColE9（大肠杆菌素E9）的摄取依赖于外膜（OM）受体BtuB和OmpF的结合以及周质蛋白TolB的募集，从而形成一个大型超分子复合物。有趣的是，大肠杆菌素利用一个天然无序区域结合TolB，以模拟TolB与Pal（肽聚糖相关脂蛋白）的相互作用。这被认为会引发外膜不稳定并为转运做好准备。在这里，我们回顾了这个“大肠杆菌素转运体”组装过程中的关键相互作用，并讨论了无序在实现摄取过程中所起的关键作用。

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Colicins exploit native disorder to gain cell entry: a hitchhiker's guide to translocation.大肠杆菌素利用天然无序状态进入细胞：转位的搭便车指南。

Biochem Soc Trans. 2008 Dec;36(Pt 6):1409-13. doi: 10.1042/BST0361409.

Competitive recruitment of the periplasmic translocation portal TolB by a natively disordered domain of colicin E9.大肠杆菌素E9的天然无序结构域对周质转运通道TolB的竞争性招募

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大肠杆菌素利用天然无序状态进入细胞：转位的搭便车指南。

Colicins exploit native disorder to gain cell entry: a hitchhiker's guide to translocation.

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