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古菌表面层糖蛋白:面对极端环境时的翻译后修饰

Archaeal S-layer glycoproteins: post-translational modification in the face of extremes.

作者信息

Kandiba Lina, Eichler Jerry

机构信息

Department of Life Sciences, Ben Gurion University of the Negev , Beersheva, Israel.

出版信息

Front Microbiol. 2014 Nov 26;5:661. doi: 10.3389/fmicb.2014.00661. eCollection 2014.

Abstract

Corresponding to the sole or basic component of the surface (S)-layer surrounding the archaeal cell in most known cases, S-layer glycoproteins are in direct contact with the harsh environments that characterize niches where Archaea can thrive. Accordingly, early work examining archaeal S-layer glycoproteins focused on identifying those properties that allow members of this group of proteins to maintain their structural integrity in the face of extremes of temperature, pH, and salinity, as well as other physical challenges. However, with expansion of the list of archaeal strains serving as model systems, as well as growth in the number of molecular tools available for the manipulation of these strains, studies on archaeal S-layer glycoproteins are currently more likely to consider the various post-translational modifications these polypeptides undergo. For instance, archaeal S-layer glycoproteins can undergo proteolytic cleavage, both N- and O-glycosylation, lipid-modification and oligomerization. In this mini-review, recent findings related to the post-translational modification of archaeal S-layer glycoproteins are considered.

摘要

在大多数已知情况下,对应于古菌细胞周围表面(S)层的唯一或基本成分,S层糖蛋白直接接触古菌能够繁盛的生态位所特有的恶劣环境。因此,早期研究古菌S层糖蛋白的工作集中于确定这类蛋白质的成员在面对极端温度、pH值和盐度以及其他物理挑战时能够保持其结构完整性的那些特性。然而,随着用作模型系统的古菌菌株列表的扩展,以及可用于操纵这些菌株的分子工具数量的增加,目前关于古菌S层糖蛋白的研究更有可能考虑这些多肽所经历的各种翻译后修饰。例如,古菌S层糖蛋白可以进行蛋白水解切割、N-糖基化和O-糖基化、脂质修饰和寡聚化。在本综述中,考虑了与古菌S层糖蛋白翻译后修饰相关的最新发现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c6f/4245038/7d199b1347e7/fmicb-05-00661-g0001.jpg

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