Advanced imaging techniques: microscopy.

2区 生物学 Q1 Immunology and Microbiology
Mona Golmohammadzadeh, Danielle L Sexton, Shweta Parmar, Elitza I Tocheva
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引用次数: 0

Abstract

For decades, bacteria were thought of as "bags" of enzymes, lacking organelles and significant subcellular structures. This stood in sharp contrast with eukaryotes, where intracellular compartmentalization and the role of large-scale order had been known for a long time. However, the emerging field of Bacterial Cell Biology has established that bacteria are in fact highly organized, with most macromolecular components having specific subcellular locations that can change depending on the cell's physiological state (Barry & Gitai, 2011; Lenz & Søgaard-Andersen, 2011; Thanbichler & Shapiro, 2008). For example, we now know that many processes in bacteria are orchestrated by cytoskeletal proteins, which polymerize into surprisingly diverse superstructures, such as rings, sheets, and tread-milling rods (Pilhofer & Jensen, 2013). These superstructures connect individual proteins, macromolecular assemblies, and even two neighboring cells, to affect essential higher-order processes including cell division, DNA segregation, and motility. Understanding these processes requires resolving the in vivo dynamics and ultrastructure at different functional stages of the cell, at macromolecular resolution and in 3-dimensions (3D). Fluorescence light microscopy (fLM) of tagged proteins is highly valuable for investigating protein localization and dynamics, and the resolution power of transmission electron microscopy (TEM) is required to elucidate the structure of macromolecular complexes in vivo and in vitro. This chapter summarizes the most recent advances in LM and TEM approaches that have revolutionized our knowledge and understanding of the microbial world.

先进的成像技术:显微镜。
几十年来,细菌被认为是酶的“袋子”,缺乏细胞器和重要的亚细胞结构。这与真核生物形成鲜明对比,在真核生物中,细胞内的区隔化和大尺度秩序的作用已经知道很长时间了。然而,新兴的细菌细胞生物学领域已经确定细菌实际上是高度组织化的,大多数大分子成分具有特定的亚细胞位置,可以根据细胞的生理状态而改变(Barry & Gitai, 2011;Lenz & Søgaard-Andersen, 2011;Thanbichler & Shapiro, 2008)。例如,我们现在知道细菌的许多过程是由细胞骨架蛋白策划的,这些蛋白聚合成令人惊讶的不同上层结构,如环、片和踏面磨棒(Pilhofer & Jensen, 2013)。这些上层结构连接单个蛋白质、大分子组合,甚至两个相邻的细胞,影响基本的高阶过程,包括细胞分裂、DNA分离和运动。理解这些过程需要在细胞的不同功能阶段,以大分子分辨率和三维(3D)分辨率解决体内动力学和超微结构。标记蛋白的荧光显微镜(fLM)对于研究蛋白质的定位和动力学具有重要价值,而透射电子显微镜(TEM)的分辨率对于阐明体内和体外大分子复合物的结构是必需的。本章总结了LM和TEM方法的最新进展,这些方法彻底改变了我们对微生物世界的认识和理解。
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
Advances in applied microbiology
Advances in applied microbiology 生物-生物工程与应用微生物
CiteScore
8.20
自引率
0.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: Advances in Applied Microbiology offers intensive reviews of the latest techniques and discoveries in this rapidly moving field. The editors are recognized experts and the format is comprehensive and instructive. Published since 1959, Advances in Applied Microbiology continues to be one of the most widely read and authoritative review sources in microbiology. Recent areas covered include bacterial diversity in the human gut, protozoan grazing of freshwater biofilms, metals in yeast fermentation processes and the interpretation of host-pathogen dialogue through microarrays.
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