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利用II型内含子对土拉热弗朗西斯菌基因进行靶向失活

Targeted inactivation of francisella tularensis genes by group II introns.

作者信息

Rodriguez Stephen A, Yu Jieh-Juen, Davis Greg, Arulanandam Bernard P, Klose Karl E

机构信息

Dept. of Biology, University of Texas San Antonio, One UTSA Circle, San Antonio, TX 78249, USA.

出版信息

Appl Environ Microbiol. 2008 May;74(9):2619-26. doi: 10.1128/AEM.02905-07. Epub 2008 Feb 29.

DOI:10.1128/AEM.02905-07
PMID:18310413
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2394887/
Abstract

Studies of the molecular mechanisms of pathogenesis of Francisella tularensis, the causative agent of tularemia, have been hampered by a lack of genetic techniques for rapid targeted gene disruption in the most virulent subspecies. Here we describe efficient targeted gene disruption in F. tularensis utilizing mobile group II introns (targetrons) specifically optimized for F. tularensis. Utilizing a targetron targeted to blaB, which encodes ampicillin resistance, we showed that the system works at high efficiency in three different subspecies: F. tularensis subsp. tularensis, F. tularensis subsp. holarctica, and "F. tularensis subsp. novicida." A targetron was also utilized to inactivate F. tularensis subsp. holarctica iglC, a gene required for virulence. The iglC gene is located within the Francisella pathogenicity island (FPI), which has been duplicated in the most virulent subspecies. Importantly, the iglC targetron targeted both copies simultaneously, resulting in a strain mutated in both iglC genes in a single step. This system will help illuminate the contributions of specific genes, and especially those within the FPI, to the pathogenesis of this poorly studied organism.

摘要

土拉热弗朗西斯菌是兔热病的病原体,对其致病分子机制的研究因缺乏在最具毒力的亚种中进行快速靶向基因破坏的遗传技术而受阻。在此,我们描述了利用专门为土拉热弗朗西斯菌优化的II组内含子移动元件(靶标元件)在土拉热弗朗西斯菌中进行高效靶向基因破坏的方法。利用靶向编码氨苄青霉素抗性的blaB基因的靶标元件,我们证明该系统在三个不同亚种中高效发挥作用:土拉热弗朗西斯菌土拉热亚种、土拉热弗朗西斯菌全北区亚种和“土拉热弗朗西斯菌新凶手亚种”。还利用一个靶标元件使土拉热弗朗西斯菌全北区亚种的iglC基因失活,该基因是毒力所需基因。iglC基因位于弗朗西斯菌致病岛(FPI)内,该致病岛在最具毒力的亚种中发生了复制。重要的是,iglC靶标元件同时靶向两个拷贝,从而在一步中产生两个iglC基因均发生突变的菌株。该系统将有助于阐明特定基因,尤其是FPI内的基因对这种研究较少的生物体致病机制的贡献。

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