An expanded genetic toolkit for inducible expression and targeted gene silencing in Rickettsia parkeri.

IF 2.7 3区 生物学 Q3 MICROBIOLOGY Journal of Bacteriology Pub Date : 2024-07-25 Epub Date: 2024-06-06 DOI:10.1128/jb.00091-24
Jon McGinn, Annie Wen, Desmond L Edwards, David M Brinkley, Rebecca L Lamason
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Abstract

Pathogenic species within the Rickettsia genus are transmitted to humans through arthropod vectors and cause a spectrum of diseases ranging from mild to life-threatening. Despite rickettsiae posing an emerging global health risk, the genetic requirements of their infectious life cycles remain poorly understood. A major hurdle toward building this understanding has been the lack of efficient tools for genetic manipulation, owing to the technical difficulties associated with their obligate intracellular nature. To this end, we implemented the Tet-On system to enable conditional gene expression in Rickettsia parkeri. Using Tet-On, we show inducible expression of antibiotic resistance and a fluorescent reporter. We further used this inducible promoter to screen the ability of R. parkeri to express four variants of the catalytically dead Cas9 (dCas9). We demonstrate that all four dCas9 variants can be expressed in R. parkeri and used for CRISPR interference (CRISPRi)-mediated targeted gene knockdown. We show targeted knockdown of an antibiotic resistance gene as well as the endogenous virulence factor sca2. Altogether, we have developed systems for inducible gene expression and CRISPRi-mediated gene knockdown for the first time in rickettsiae, laying the groundwork for more scalable, targeted mechanistic investigations into their infectious life cycles.IMPORTANCEThe spotted fever group of Rickettsia contains vector-borne pathogenic bacteria that are neglected and emerging threats to public health. Due to the obligate intracellular nature of rickettsiae, the development of tools for genetic manipulation has been stunted, and the molecular and genetic underpinnings of their infectious lifecycle remain poorly understood. Here, we expand the genetic toolkit by introducing systems for conditional gene expression and CRISPR interference (CRISPRi)-mediated gene knockdown. These systems allow for relatively easy manipulation of rickettsial gene expression. We demonstrate the effectiveness of these tools by disrupting the intracellular life cycle using CRISPRi to deplete the sca2 virulence factor. These tools will be crucial for building a more comprehensive and detailed understanding of rickettsial biology and pathogenesis.

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用于帕克氏立克次体诱导表达和靶向基因沉默的扩展基因工具包。
立克次体属中的致病菌种通过节肢动物媒介传播给人类,并引起一系列从轻微到危及生命的疾病。尽管立克次体对全球健康构成了新的威胁,但人们对其传染生命周期的遗传要求仍然知之甚少。由于立克次体必须存在于细胞内的特性所带来的技术难度,缺乏有效的遗传操作工具一直是阻碍人们了解立克次体的一个主要障碍。为此,我们利用 Tet-On 系统实现了公园立克次体的条件基因表达。利用 Tet-On,我们展示了抗生素耐药性和荧光报告基因的诱导表达。我们还利用这种诱导启动子筛选了立克次体表达四种催化死亡 Cas9(dCas9)变体的能力。我们证明了所有四种 dCas9 变体都能在 R. parkeri 中表达,并用于 CRISPR 干扰(CRISPRi)介导的靶向基因敲除。我们展示了抗生素抗性基因和内源性毒力因子 sca2 的靶向基因敲除。总之,我们首次在立克次体中开发出了诱导基因表达和 CRISPRi 介导的基因敲除系统,为对立克次体的感染性生命周期进行更多可扩展的、有针对性的机理研究奠定了基础。由于立克次体必须存在于细胞内,因此遗传操作工具的开发一直处于停滞状态,人们对其感染性生命周期的分子和遗传基础仍然知之甚少。在这里,我们引入了条件基因表达系统和 CRISPR 干扰(CRISPRi)介导的基因敲除系统,从而扩展了遗传工具包。这些系统可以相对容易地操纵立克次体的基因表达。我们利用 CRISPRi 破坏细胞内的生命周期,删除 sca2 毒力因子,证明了这些工具的有效性。这些工具对于更全面、更详细地了解立克次体生物学和致病机理至关重要。
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
Journal of Bacteriology
Journal of Bacteriology 生物-微生物学
CiteScore
6.10
自引率
9.40%
发文量
324
审稿时长
1.3 months
期刊介绍: The Journal of Bacteriology (JB) publishes research articles that probe fundamental processes in bacteria, archaea and their viruses, and the molecular mechanisms by which they interact with each other and with their hosts and their environments.
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