MINFLUX imaging of a bacterial molecular machine at nanometer resolution.

IF 2.4 3区 化学 Q3 CHEMISTRY, ANALYTICAL
Alexander Carsten, Maren Rudolph, Tobias Weihs, Roman Schmidt, Isabelle Jansen, Christian A Wurm, Andreas Diepold, Antonio Virgilio Failla, Manuel Wolters, Martin Aepfelbacher
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引用次数: 3

Abstract

The resolution achievable with the established super-resolution fluorescence nanoscopy methods, such as STORM or STED, is in general not sufficient to resolve protein complexes or even individual proteins. Recently, minimal photon flux (MINFLUX) nanoscopy has been introduced that combines the strengths of STED and STORM nanoscopy and can achieve a localization precision of less than 5 nm. We established a generally applicable workflow for MINFLUX imaging and applied it for the first time to a bacterial molecular machinein situ, i.e., the injectisome of the enteropathogenY. enterocolitica. We demonstrate with a pore protein of the injectisome that MINFLUX can achieve a resolution down to the single molecule levelin situ. By imaging a sorting platform protein using 3D-MINFLUX, insights into the precise localization and distribution of an injectisome component in a bacterial cell could be accomplished. MINFLUX nanoscopy has the potential to revolutionize super-resolution imaging of dynamic molecular processes in bacteria and eukaryotes.

细菌分子机器的纳米分辨率MINFLUX成像。
现有的超分辨率荧光纳米显微镜方法(如STORM或STED)所能达到的分辨率通常不足以分辨蛋白质复合物甚至单个蛋白质。最近,最小光子通量(MINFLUX)纳米显微镜被引入,它结合了STED和STORM纳米显微镜的优点,可以实现小于5 nm的定位精度。我们建立了一个普遍适用的MINFLUX成像工作流程,并首次将其应用于原位细菌分子机器,即肠道病原体的注射体。enterocolitica。我们用注射体的孔蛋白证明MINFLUX可以在原位实现低至单分子水平的分辨率。通过使用3D-MINFLUX对分选平台蛋白进行成像,可以实现对细菌细胞中注射成分的精确定位和分布的了解。MINFLUX纳米显微镜有可能彻底改变细菌和真核生物动态分子过程的超分辨率成像。
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来源期刊
Methods and Applications in Fluorescence
Methods and Applications in Fluorescence CHEMISTRY, ANALYTICALCHEMISTRY, PHYSICAL&n-CHEMISTRY, PHYSICAL
CiteScore
6.20
自引率
3.10%
发文量
60
期刊介绍: Methods and Applications in Fluorescence focuses on new developments in fluorescence spectroscopy, imaging, microscopy, fluorescent probes, labels and (nano)materials. It will feature both methods and advanced (bio)applications and accepts original research articles, reviews and technical notes.
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