通过酰基化介导的脂质化作用将细菌效应器锚定到宿主膜上：一种常见的范例。

Anchoring of bacterial effectors to host membranes through host-mediated lipidation by prenylation: a common paradigm.

机构信息

Department of Microbiology and Immunology, College of Medicine, University of Louisville, KY 40292, USA.

出版信息

Trends Microbiol. 2011 Dec;19(12):573-9. doi: 10.1016/j.tim.2011.08.003. Epub 2011 Oct 7.

DOI:10.1016/j.tim.2011.08.003

PMID:21983544

Abstract

Post-translational lipidation by prenylation of the CaaX-box C-terminal motif in eukaryotic proteins facilitates anchoring of hydrophilic proteins, such as Ras and Rab, to membranes. A large cadre of bacterial effectors injected into host cells is anchored to host membranes by unknown mechanisms. As already documented for Legionella and Salmonella, we propose a common paradigm of microbial exploitation of the host prenylation machinery for anchoring of injected effectors to host membranes. This is supported by numerous potential microbial CaaX-box-containing proteins identified using refined bioinformatic tools. We also propose utilization of the CaaX motif as a membrane-targeting tag for proteins expressed in eukaryotic cells to facilitate deciphering of biological function.

摘要

翻译后的文本

真核蛋白 CaaX 框 C 末端基序的翻译后脂质化通过 prenylation 促进亲水蛋白（如 Ras 和 Rab）锚定到膜上。大量注入宿主细胞的细菌效应物通过未知机制锚定到宿主膜上。正如已经为军团菌和沙门氏菌记录的那样，我们提出了一个微生物利用宿主 prenylation 机制将注入的效应物锚定到宿主膜上的共同范例。这得到了使用 refined bioinformatic tools 识别的许多潜在的微生物 CaaX 框含蛋白的支持。我们还提出利用 CaaX 基序作为在真核细胞中表达的蛋白质的膜靶向标签，以促进对生物学功能的破译。

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通过酰基化介导的脂质化作用将细菌效应器锚定到宿主膜上：一种常见的范例。

Anchoring of bacterial effectors to host membranes through host-mediated lipidation by prenylation: a common paradigm.

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