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周质环的极性和电荷决定了M13原衣壳lep蛋白对YidC和Sec转位酶的需求。

Polarity and charge of the periplasmic loop determine the YidC and sec translocase requirement for the M13 procoat lep protein.

作者信息

Soman Raunak, Yuan Jijun, Kuhn Andreas, Dalbey Ross E

机构信息

From the Department of Chemistry and Biochemistry, The Ohio State University, Columbus, Ohio 43210 and.

出版信息

J Biol Chem. 2014 Jan 10;289(2):1023-32. doi: 10.1074/jbc.M113.522250. Epub 2013 Nov 25.

DOI:10.1074/jbc.M113.522250
PMID:24275657
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3887171/
Abstract

During membrane biogenesis, the M13 procoat protein is inserted into the lipid bilayer in a strictly YidC-dependent manner with both the hydrophobic signal sequence and the membrane anchor sequence promoting translocation of the periplasmic loop via a hairpin mechanism. Here, we find that the translocase requirements can be altered for PClep in a predictable manner by changing the polarity and charge of the peptide region that is translocated across the membrane. When the polarity of the translocated peptide region is lowered and the charged residues in this region are removed, translocation of this loop region occurs largely by a YidC- and Sec-independent mechanism. When the polarity is increased to that of the wild-type procoat protein, the YidC insertase is essential for translocation. Further increasing the polarity, by adding charged residues, switches the insertion pathway to a YidC/Sec mechanism. Conversely, we find that increasing the hydrophobicity of the transmembrane segments of PClep can decrease the translocase requirement for translocation of the peptide chain. This study provides a framework to understand why the YidC and Sec machineries exist in parallel and demonstrates that the YidC insertase has a limited capacity to translocate a peptide chain on its own.

摘要

在膜生物合成过程中,M13原衣壳蛋白以严格依赖YidC的方式插入脂质双层,疏水信号序列和膜锚定序列均通过发夹机制促进周质环的转运。在此,我们发现通过改变跨膜转运肽段区域的极性和电荷,可以以可预测的方式改变PClep的转位酶需求。当转运肽段区域的极性降低且该区域的带电残基被去除时,该环区域的转运很大程度上通过一种不依赖YidC和Sec的机制发生。当极性增加到野生型原衣壳蛋白的极性时,YidC插入酶对于转运至关重要。通过添加带电残基进一步增加极性,则将插入途径切换为YidC/Sec机制。相反,我们发现增加PClep跨膜片段的疏水性可以降低肽链转运对转位酶的需求。这项研究提供了一个框架,以理解为什么YidC和Sec机制并行存在,并证明YidC插入酶自身转运肽链的能力有限。

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