The Structural Diversity of Encapsulin Protein Shells.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Tobias W Giessen
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引用次数: 0

Abstract

Subcellular compartmentalization is a universal feature of all cells. Spatially distinct compartments, be they lipid- or protein-based, enable cells to optimize local reaction environments, store nutrients, and sequester toxic processes. Prokaryotes generally lack intracellular membrane systems and usually rely on protein-based compartments and organelles to regulate and optimize their metabolism. Encapsulins are one of the most diverse and widespread classes of prokaryotic protein compartments. They self-assemble into icosahedral protein shells and are able to specifically internalize dedicated cargo enzymes. This review discusses the structural diversity of encapsulin protein shells, focusing on shell assembly, symmetry, and dynamics. The properties and functions of pores found within encapsulin shells will also be discussed. In addition, fusion and insertion domains embedded within encapsulin shell protomers will be highlighted. Finally, future research directions for basic encapsulin biology, with a focus on the structural understand of encapsulins, are briefly outlined.

包囊蛋白外壳结构的多样性
亚细胞区隔是所有细胞的普遍特征。无论是基于脂质还是蛋白质的隔室,在空间上各不相同的隔室都能使细胞优化局部反应环境、储存营养物质和封闭毒性过程。原核生物一般缺乏细胞内膜系统,通常依靠以蛋白质为基础的隔室和细胞器来调节和优化新陈代谢。封装蛋白是原核生物蛋白质区室中种类最多、分布最广的一类。它们能自我组装成二十面体蛋白外壳,并能特异性地内装专用的载货酶。这篇综述讨论了包囊蛋白外壳结构的多样性,重点是外壳的组装、对称性和动力学。还将讨论封装蛋白壳内孔隙的特性和功能。此外,还将重点介绍嵌入封装蛋白外壳原体中的融合域和插入域。最后,将简要介绍封装蛋白基础生物学的未来研究方向,重点是了解封装蛋白的结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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