禽分枝杆菌104基因组中噬菌体的鉴定及其与环境生存功能的联系。

Advances in Microbiology Pub Date : 2016-11-01 Epub Date: 2016-11-09 DOI:10.4236/aim.2016.613087
Miao Zhao, Kerrigan Gilbert, Lia Danelishvili, Brendan Jeffrey, Luiz E Bermudez
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引用次数: 2

摘要

鸟分枝杆菌是一种与人类和动物致病行为相关的机会性细菌。鸟分枝杆菌通过其生活方式中的环境成分而进化为病原体。噬菌体是细菌基因组中整合的病毒形式。它们约占许多细菌基因组的10% - 20%,并对微生物的致病性有贡献。我们研究了M. avium 104基因组是否含有前噬菌体,并评估了其可能功能的基因/蛋白。从M. avium 104数据库中鉴定出3个原噬菌体基因,并对其序列进行了特异性基序分析。然后在耻垢分枝杆菌中克隆了原噬菌体序列,并在环境胁迫的功能分析中评估了细菌的表型,如对极端温度、紫外线、生物膜的形成和对酸的抗性以及巨噬细胞的存活。结果表明,两个原噬菌体基因MAV_0696和MAV_2265使耻垢分枝杆菌产生生物膜的能力增强。利用Real-Time PCR,确定了MAV_0696和MAV_2265转录本在M. avium形成生物膜时被上调。MAV_2265基因在各时间点的表达量均显著增高。此外,与野生型对照相比,MAV_2265在pH 5.0环境下的表达也显著提高了褐皮菌的存活率。过表达原噬菌体基因对裸鼠的其他生理机能均无影响。总之,我们在M. avium 104中鉴定了三个噬菌体序列,其中两个与生物膜的形成有关,一个与对酸性环境的抗性有关。未来的研究将进一步确定其作用机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Identification of Prophages within the <i>Mycobacterium avium</i> 104 Genome and the Link of Their Function Regarding to Environment Survival.

Identification of Prophages within the <i>Mycobacterium avium</i> 104 Genome and the Link of Their Function Regarding to Environment Survival.

Identification of Prophages within the <i>Mycobacterium avium</i> 104 Genome and the Link of Their Function Regarding to Environment Survival.

Identification of Prophages within the Mycobacterium avium 104 Genome and the Link of Their Function Regarding to Environment Survival.

Mycobacterium avium is an opportunistic bacterium associated with pathogenic behavior in both humans and animals. M. avium has evolved as a pathogen by having an environmental component in its life style. Prophages are the integrated viral forms in bacterium genome. They constitute about 10% - 20% of genome of many bacteria and they contribute to pathogenicity of microbes. We investigated whether the M. avium 104 genome contained prophages and evaluated the genes/proteins for putative functions. Three prophage genes were identified in the M. avium 104 database, and sequences were analyzed for specific motifs. The prophage sequences were then cloned in Mycobacterium smegmatis and the bacterial phenotype was evaluated in gain of function assays for environmental stresses, such as tolerance to extreme temperatures, UV light, biofilm formation and resistance to acid as well as macrophage survival. The results indicate that two of the prophage genes, MAV_0696 and MAV_2265, confer M. smegmatis with enhanced ability to produce biofilm. Using a Real-Time PCR, it was determined that MAV_0696 and MAV_2265 transcripts were upregulated upon biofilm formation by M. avium. The expression of MAV_2265 gene was significantly higher at all selected time points. In addition, the expression of MAV_2265 in M. smegmatis also led to significantly greater survival rate at pH 5.0 compared to the wild-type control. None of the other physical abilities were altered by overexpressing the prophage genes in M. smegmatis. In summary, we identified three prophage sequences in M. avium 104, from which two of them were found to be associated with biofilm formation and one with resistance to the acidic environment. Future studies will identify the mechanisms involved in the prophages function.

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