铁生理学中的细菌细胞器

IF 2.6 2区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Kristina M. Ferrara, Kuldeepkumar R. Gupta, Hualiang Pi
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引用次数: 0

摘要

细菌曾被认为是一种简单的生物,缺乏真核细胞中的膜结合细胞器。然而,最近显微镜技术的进步改变了这一看法,揭示了细菌细胞内多种多样的细胞器。这些细胞器被脂质双分子层、蛋白质-脂质单分子层或蛋白质外壳包围,在促进生化反应和保护细胞免受有害副产物伤害方面发挥着至关重要的作用。与普遍存在的真核生物细胞器不同,细菌细胞器具有物种特异性,只有在特定条件下才会诱发。铁是所有生命形式所必需的微量营养元素,但过量存在时可能会产生毒性。迄今为止,已发现三种与铁有关的细菌细胞器:两种膜结合细胞器--磁小体和铁小体,以及一种蛋白质包裹细胞器--包裹铁蛋白样蛋白。本文概述了这些细胞器的遗传学、生物发生和生理功能。此外,我们还讨论了细菌如何利用这些特殊结构在各种环境条件下适应、生长和生存。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bacterial Organelles in Iron Physiology

Bacterial Organelles in Iron Physiology
Bacteria were once thought to be simple organisms, lacking the membrane-bound organelles found in eukaryotic cells. However, recent advancements in microscopy have changed this view, revealing a diverse array of organelles within bacterial cells. These organelles, surrounded by lipid bilayers, protein-lipid monolayers, or proteinaceous shells, play crucial roles in facilitating biochemical reactions and protecting cells from harmful byproducts. Unlike eukaryotic organelles, which are universally present, bacterial organelles are species-specific and induced only under certain conditions. This review focuses on the bacterial organelles that contain iron, an essential micronutrient for all life forms but potentially toxic when present in excess. To date, three types of iron-related bacterial organelles have been identified: two membrane-bound organelles, magnetosomes and ferrosomes, and one protein-enclosed organelle, the encapsulated ferritin-like proteins. This article provides an updated overview of the genetics, biogenesis, and physiological functions of these organelles. Furthermore, we discuss how bacteria utilize these specialized structures to adapt, grow, and survive under various environmental conditions.
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来源期刊
Molecular Microbiology
Molecular Microbiology 生物-生化与分子生物学
CiteScore
7.20
自引率
5.60%
发文量
132
审稿时长
1.7 months
期刊介绍: Molecular Microbiology, the leading primary journal in the microbial sciences, publishes molecular studies of Bacteria, Archaea, eukaryotic microorganisms, and their viruses. Research papers should lead to a deeper understanding of the molecular principles underlying basic physiological processes or mechanisms. Appropriate topics include gene expression and regulation, pathogenicity and virulence, physiology and metabolism, synthesis of macromolecules (proteins, nucleic acids, lipids, polysaccharides, etc), cell biology and subcellular organization, membrane biogenesis and function, traffic and transport, cell-cell communication and signalling pathways, evolution and gene transfer. Articles focused on host responses (cellular or immunological) to pathogens or on microbial ecology should be directed to our sister journals Cellular Microbiology and Environmental Microbiology, respectively.
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