开发用于非模式核酸镰刀菌株基因缺失的条件质粒

peng zhou, Bibek G C, Chenggang Wu
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摘要

核酸镰刀菌是一种机会性病原体,有四个亚种:核酸(FNN)、文森蒂(FNV)、多形菌(FNP)和动物菌(FNA),每个亚种都有不同的致病潜能。有关镰刀菌致病机理的研究主要集中在 FNN 的模式菌株 ATCC 23726 上。然而,考虑到 F. nucleatum 的遗传和表型多样性,这种狭隘的关注可能会忽略其他 FNN 菌株和其他亚种菌株的重要行为。虽然 ATCC 23726 的转化率很高,但大多数其他镰刀菌菌株的转化效率很低,这使得依赖非复制质粒的传统基因缺失方法变得复杂。为了解决这个问题,我们开发了一种条件质粒系统,在该系统中,复制基于 pCWU6 的穿梭质粒所必需的 RepA 蛋白由一个结合了 fdx 启动子和茶碱反应核糖开关的诱导系统控制。该系统允许质粒在宿主细胞中进行诱导复制,并在去除诱导剂后丢失质粒,从而在抗生素硫霉素存在的情况下通过同源重组迫使染色体整合。我们以 galK 基因为目标验证了这种方法,成功地在 FNN(ATCC 23726,CTI-2)、FNP(ATCC 10953)、FNA(21_1A)和密切相关的物种牙周病镰刀菌中产生了突变体。在这种条件质粒中加入 sacB 反选择标记,可以在非模式菌株中删除 radD 基因。有趣的是,虽然 23726、10953 和 21_1A 中的 radD 基因缺失会破坏与口放线菌的共聚,但 CTI-2 突变体却保留了这种能力,这表明还有其他未知粘附蛋白的参与。这项工作极大地推动了核酸酵母菌株基因缺失的研究,加深了我们对这种病原体的了解。
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Development of a Conditional Plasmid for Gene Deletion in Non-Model Fusobacterium nucleatum strains
Fusobacterium nucleatum is an opportunistic pathogen with four subspecies: nucleatum (FNN), vincentii (FNV), polymorphum (FNP), and animalis (FNA), each with distinct disease potentials. Research on fusobacterial pathogenesis has mainly focused on the model strain ATCC 23726 from FNN. However, this narrow focus may overlook significant behaviors of other FNN strains and those from other subspecies, given the genetic and phenotypic diversity within F. nucleatum. While ATCC 23726 is highly transformable, most other Fusobacterium strains exhibit low transformation efficiency, complicating traditional gene deletion methods that rely on non-replicating plasmids. To address this, we developed a conditional plasmid system in which the RepA protein, essential for replication of a pCWU6-based shuttle plasmid, is controlled by an inducible system combining an fdx promoter with a theophylline-responsive riboswitch. This system allows plasmid replication in host cells upon induction and plasmid loss when the inducer is removed, forcing chromosomal integration via homologous recombination in the presence of the antibiotic thiamphenicol. We validated this approach by targeting the galK gene, successfully generating mutants in FNN (ATCC 23726, CTI-2), FNP (ATCC 10953), FNA (21_1A), and the closely related species Fusobacterium periodonticum. Incorporating a sacB counterselection marker in this conditional plasmid enabled the deletion of the radD gene in non-model strains. Interestingly, while radD deletion in 23726, 10953, and 21_1A abolished coaggregation with Actinomyces oris, the CTI-2 mutant retained this ability, suggesting the involvement of other unknown adhesins. This work significantly advances gene deletion in genetically recalcitrant F. nucleatum strains, enhancing our understanding of this pathogen.
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