Tiago R. D. Costa, Catarina Felisberto-Rodrigues, Amit Meir, Marie S. Prevost, Adam Redzej, Martina Trokter, Gabriel Waksman
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引用次数: 782
Abstract
In this Review, Waksman and colleagues describe the structural and mechanistic details of the six secretion systems (types I–VI) of Gram-negative bacteria, the unique mycobacterial type VII secretion system, the chaperone–usher pathway and the curli biogenesis machinery. They discuss both conserved and divergent properties of these systems and their potential as targets of novel antibacterial compounds. Bacteria have evolved a remarkable array of sophisticated nanomachines to export various virulence factors across the bacterial cell envelope. In recent years, considerable progress has been made towards elucidating the structural and molecular mechanisms of the six secretion systems (types I–VI) of Gram-negative bacteria, the unique mycobacterial type VII secretion system, the chaperone–usher pathway and the curli secretion machinery. These advances have greatly enhanced our understanding of the complex mechanisms that these macromolecular structures use to deliver proteins and DNA into the extracellular environment or into target cells. In this Review, we explore the structural and mechanistic relationships between these single- and double-membrane-embedded systems, and we briefly discuss how this knowledge can be exploited for the development of new antimicrobial strategies.
在这篇综述中,Waksman 及其同事描述了革兰氏阴性细菌的六种分泌系统(I-VI 型)、独特的分枝杆菌 VII 型分泌系统、伴侣-usher 途径和卷曲生物生成机制的结构和机理细节。他们讨论了这些系统的保守和差异特性,以及它们作为新型抗菌化合物靶标的潜力。细菌进化出了一系列复杂的纳米机器,用于在细菌细胞包膜上输出各种毒力因子。近年来,在阐明革兰氏阴性细菌的六种分泌系统(I-VI 型)、独特的分枝杆菌 VII 型分泌系统、伴侣-usher 途径和 curli 分泌机制的结构和分子机制方面取得了重大进展。这些研究进展大大加深了我们对这些大分子结构将蛋白质和 DNA 运送到细胞外环境或靶细胞的复杂机制的了解。在本综述中,我们将探讨这些单膜和双膜嵌入系统之间的结构和机理关系,并简要讨论如何利用这些知识来开发新的抗菌策略。
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