Computational genomics-proteomics and Phylogeny analysis of twenty one mycobacterial genomes (Tuberculosis & non Tuberculosis strains).

Fathiah Zakham, Othmane Aouane, David Ussery, Abdelaziz Benjouad, Moulay Mustapha Ennaji
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引用次数: 28

Abstract

Unlabelled:

Background: The genus Mycobacterium comprises different species, among them the most contagious and infectious bacteria. The members of the complex Mycobacterium tuberculosis are the most virulent microorganisms that have killed human and other mammals since millennia. Additionally, with the many different mycobacterial sequences available, there is a crucial need for the visualization and the simplification of their data. In this present study, we aim to highlight a comparative genome, proteome and phylogeny analysis between twenty-one mycobacterial (Tuberculosis and non tuberculosis) strains using a set of computational and bioinformatics tools (Pan and Core genome plotting, BLAST matrix and phylogeny analysis).

Results: Considerably the result of pan and core genome Plotting demonstrated that less than 1250 Mycobacterium gene families are conserved across all species, and a total set of about 20,000 gene families within the Mycobacterium pan-genome of twenty one mycobacterial genomes.Viewing the BLAST matrix a high similarity was found among the species of the complex Mycobacterium tuberculosis and less conservation is found with other slow growing pathogenic mycobacteria.Phylogeny analysis based on both protein conservation, as well as rRNA clearly resolve known relationships between slow growing mycobacteria.

Conclusion: Mycobacteria include important pathogenic species for human and animals and the Mycobacterium tuberculosis complex is the most cause of death of the humankind. The comparative genome analysis could provide a new insight for better controlling and preventing these diseases.

Abstract Image

Abstract Image

Abstract Image

21个分枝杆菌基因组(结核和非结核菌株)的计算基因组学-蛋白质组学和系统发育分析。
背景:分枝杆菌属包括不同的种类,其中最具传染性和传染性的细菌。复杂的结核分枝杆菌的成员是数千年来杀死人类和其他哺乳动物的最致命的微生物。此外,由于有许多不同的分枝杆菌序列可用,因此对其数据的可视化和简化是至关重要的。在本研究中,我们旨在利用一套计算和生物信息学工具(Pan和Core基因组绘图,BLAST矩阵和系统发育分析)对21种分枝杆菌(结核和非结核)菌株进行比较基因组,蛋白质组学和系统发育分析。结果:总体和核心基因组图谱分析结果显示,在所有物种中保守的分枝杆菌基因家族不到1250个,在21个分枝杆菌基因组的分枝杆菌泛基因组中保守的基因家族总数约为2万个。观察BLAST基质,发现结核分枝杆菌复合体的种类之间具有高度的相似性,而与其他生长缓慢的致病性分枝杆菌的相似性较小。基于蛋白质保护和rRNA的系统发育分析清楚地解决了生长缓慢的分枝杆菌之间的已知关系。结论:分枝杆菌是人类和动物的重要致病菌,结核分枝杆菌复合体是人类死亡的主要原因。比较基因组分析可以为更好地控制和预防这些疾病提供新的见解。
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