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梅毒研究的新资源:梅毒螺旋体和 Sf1Ep 细胞的基因编码荧光标签。

Bright New Resources for Syphilis Research: Genetically Encoded Fluorescent Tags for Treponema pallidum and Sf1Ep Cells.

机构信息

Parasites and Microbes Programme, Wellcome Sanger Institute, Hinxton, UK.

Division of Allergy and Infectious Diseases, Department of Medicine, University of Washington, Seattle, Washington, USA.

出版信息

Mol Microbiol. 2024 Oct;122(4):455-464. doi: 10.1111/mmi.15304. Epub 2024 Aug 8.

DOI:10.1111/mmi.15304
PMID:39115038
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11479824/
Abstract

The recently discovered methodologies to cultivate and genetically manipulate Treponema pallidum subsp. pallidum (T. pallidum) have significantly helped syphilis research, allowing the in vitro evaluation of antibiotic efficacy, performance of controlled studies to assess differential treponemal gene expression, and generation of loss-of-function mutants to evaluate the contribution of specific genetic loci to T. pallidum virulence. Building on this progress, we engineered the T. pallidum SS14 strain to express a red-shifted green fluorescent protein (GFP) and Sf1Ep cells to express mCherry and blue fluorescent protein (BFP) for enhanced visualization. These new resources improve microscopy- and cell sorting-based applications for T. pallidum, better capturing the physical interaction between the host and pathogen, among other possibilities. Continued efforts to develop and share new tools and resources are required to help our overall knowledge of T. pallidum biology and syphilis pathogenesis reach that of other bacterial pathogens, including spirochetes.

摘要

最近发现的培养和遗传操作苍白密螺旋体亚种苍白密螺旋体(T. pallidum)的方法极大地促进了梅毒研究,允许评估抗生素疗效的体外评估,进行评估差异密螺旋体基因表达的对照研究,并产生功能丧失突变体,以评估特定遗传基因座对 T. pallidum 毒力的贡献。在此基础上,我们设计了 T. pallidum SS14 菌株表达红色移位的绿色荧光蛋白(GFP),并设计 Sf1Ep 细胞表达 mCherry 和蓝色荧光蛋白(BFP)以增强可视化。这些新资源改进了基于显微镜和细胞分选的 T. pallidum 应用,更好地捕捉了宿主和病原体之间的物理相互作用等可能性。需要继续努力开发和共享新工具和资源,以帮助我们对 T. pallidum 生物学和梅毒发病机制的整体认识达到其他细菌病原体的水平,包括螺旋体。

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Lancet Microbe. 2023 Dec;4(12):e994-e1004. doi: 10.1016/S2666-5247(23)00219-7. Epub 2023 Oct 9.
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Treponema pallidum subsp. pallidum with an Artificially impaired TprK antigenic variation system is attenuated in the Rabbit model of syphilis.梅毒密螺旋体亚种苍白亚种的 TprK 抗原变异系统人为受损,在兔梅毒模型中减毒。
PLoS Pathog. 2023 Mar 20;19(3):e1011259. doi: 10.1371/journal.ppat.1011259. eCollection 2023 Mar.
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In Vitro Transformation and Selection of Treponema pallidum subsp. pallidum.苍白密螺旋体亚种苍白密螺旋体的体外转化与选择。
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