沿寄生-共生连续体的科氏属进化过程中的基因组变化

Diego Santos-Garcia, Olivier Morel, Hélène Henri, Adil El Filali, Marie Buysse, Valérie Noël, Karen D. McCoy, Yuval Gottlieb, Lisa Klasson, Lionel Zenner, Olivier Duron, Fabrice Vavre
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引用次数: 0

摘要

Coxiellaceae家族由五个属组成,表现出从自由生活到共生的生活方式。其中,伯纳蒂Coxiella burnetii是众所周知的引起人类Q热的病原体。这种细菌呈现细胞内(寄生)和环境(耐药)两种形式。近年来,一些环境Coxiella基因组被报道,其中一些来自蜱的细胞内共生共生体,称为Coxiella-like内共生体。我们从边缘革螨(Dermacentor marginatus, CLEDm)和海洋鸟蜱(Ornithodoros maritimus, CLEOmar)中测序了两个新的Coxiella-LE基因组,后者属于伯氏蜱谱系。利用这些新测序的Coxiella-LEs和43个Coxiellaceae基因组,我们进行了比较基因组和系统基因组分析,以增加我们对伯纳氏杆菌致病性和Coxiella-LEs出现的认识。结果表明,其共同祖先很可能是寄生的。事实上,毒力因子Dot/Icm T4分泌系统存在于大多数,但不是全部,Coxiellaceae。虽然它是伯纳氏梭菌中假定的致病岛的一部分,但它在Coxiella-LEs中已完全丢失或失活,这表明它在发病机制中的重要性。此外,我们发现一个Sha/Mrp反转运蛋白是在伯氏C. burnetii谱系中横向获得的。这种反向转运蛋白可能参与了抗碱性和能够在环境中长期存在的抗性形式的发展。Coxiella-LEs中Sha操纵子被侵蚀或缺失。最后,我们发现所有Coxiella代表都产生B族维生素和辅助因子,表明Coxiella对与食血节肢动物共生的预适应。因此,伯纳氏杆菌和科西拉- les的祖先很可能是一种能够操纵宿主细胞并产生维生素和辅助因子以供自身使用的寄生细菌。
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Genomic changes during the evolution of the Coxiella genus along the parasitism-mutualism continuum
The Coxiellaceae family is composed of five genera showing lifestyles ranging from free-living to symbiosis. Among them, Coxiella burnetii is a well-known pathogen causing Q fever in humans. This bacterium presents both intracellular (parasitic) and environmental (resistant) forms. Recently, several environmental Coxiella genomes have been reported, among which several have come from intracellular mutualistic symbionts of ticks, termed Coxiella-like endosymbionts. We sequenced two new Coxiella-LE genomes from Dermacentor marginatus (CLEDm) and Ornithodoros maritimus (CLEOmar) ticks, the latter belonging to the C. burnetii lineage. Using these newly sequenced Coxiella-LEs and 43 Coxiellaceae genomes, we conducted comparative genomic and phylogenomic analyses to increase our knowledge of C. burnetii pathogenicity and the emergence of Coxiella-LEs. Results highlight the probably parasitic nature of the common ancestor of the Coxiellaceae. Indeed, the virulence factor Dot/Icm T4 Secretion System is present in most, but not all, Coxiellaceae. Whereas it is part of a putative pathogenic island in C. burnetii, it has been entirely lost or inactivated in Coxiella-LEs, suggesting its importance in pathogenesis. Additionally, we found that a Sha/Mrp antiporter was laterally acquired in the C. burnetii lineage. This antiporter might be involved in alkali resistance and the development of the resistant form that is able to persist in the environment for long periods of time. The Sha operon is eroded or absent in Coxiella-LEs. Finally, we found that all Coxiella representatives produce B vitamins and co-factors indicating a pre-adaptation of Coxiella to mutualism with hematophagous arthropods. Accordingly, the ancestor of C. burnetii and Coxiella-LEs was likely a parasitic bacterium able to manipulate its host cell and to produce vitamins and co-factors for its own use.
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