Phylogenomic analyses and comparative genomic studies of Thermus strains isolated from Tengchong and Tibet Hot Springs, China

IF 1.8 3区 生物学 Q4 MICROBIOLOGY
Inam Ullah Khan, Muhammad Saqib, Arshia Amin, Sadia Manzoor, Iftikhar Ahmed, Rui-Rui Liu, Jian-Yu Jiao, Xiao-Yang Zhi, Wen-Jun Li
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引用次数: 0

Abstract

Genus Thermus is the main focus of researcher among the thermophiles. Members of this genus are the inhabitants of both natural and artificial thermal environments. We performed phylogenomic analyses and comparative genomic studies to unravel the genomic diversity among the strains belonging to the genus Thermus in geographically different thermal springs. Sixteen Thermus strains were isolated and sequenced from hot springs, Qucai hot springs in Tibet and Tengchong hot springs in Yunnan, China. 16S rRNA gene based phylogeny and phylogenomic analyses based on concatenated set of 971 Orthologous Protein Families (supermatrix and gene content methods) revealed a mixed distribution of the Thermus strains. Whole genome based phylogenetic analysis showed, all 16 Thermus strains belong to five species; Thermus oshimai (YIM QC-2-109, YIM 1640, YIM 1627, 77359, 77923, 77838), Thermus antranikianii (YIM 73052, 77412, 77311, 71206), Thermus brokianus (YIM 73518, 71318, 72351), Thermus hydrothermalis (YIM 730264 and 77927) and one potential novel species 77420 forming clade with Thermus thalpophilus SYSU G00506T. Although the genomes of different strains of Thermus of same species were highly similar in their metabolic pathways, but subtle differences were found. CRISPR loci were detected through genome-wide screening, which showed that Thermus isolates from two different thermal locations had well developed defense system against viruses and adopt similar strategy for survival. Additionally, comparative genome analysis screened competence loci across all the Thermus genomes which could be helpful to acquire DNA from environment. In the present study it was found that Thermus isolates use two mechanism of incomplete denitrification pathway, some Thermus strains produces nitric oxide while others nitrious oxide (dinitrogen oxide), which show the heterotrophic lifestyle of Thermus genus. All isolated organisms encoded complete pathways for glycolysis, tricarboxylic acid and pentose phosphate. Calvin Benson Bassham cycle genes were identified in genomes of T. oshimai and T. antranikianii strains, while genomes of all T. brokianus strains and organism 77420 were lacking. Arsenic, cadmium and cobalt-zinc-cadmium resistant genes were detected in genomes of all sequenced Thermus strains. Strains 77,420, 77,311, 73,518, 77,412 and 72,351 genomes were found harboring genes for siderophores production. Sox gene clusters were identified in all sequenced genomes, except strain YIM 730264, suggesting a mode of chemolithotrophy. Through the comparative genomic analysis, we also identified 77420 as the genome type species and its validity as novel organism was confirmed by whole genome sequences comparison. Although isolate 77420 had 99.0% 16S rRNA gene sequence similarity with T. thalpophilus SYSU G00506T but based on ANI 95.86% (Jspecies) and digital DDH 68.80% (GGDC) values differentiate it as a potential novel species. Similarly, in the phylogenomic tree, the novel isolate 77,420 forming a separate branch with their closest reference type strain T. thalpophilus SYSU G00506T.

Abstract Image

从中国腾冲和西藏温泉分离的嗜热菌菌株的系统发生组分析和比较基因组研究
嗜热菌属是研究嗜热菌的重点。该属的成员既是自然热环境的居民,也是人工热环境的居民。我们进行了系统发生组分析和比较基因组研究,以揭示不同地理位置温泉中嗜热菌属菌株的基因组多样性。研究人员从中国西藏曲彩温泉和云南腾冲温泉分离出 16 株嗜热菌,并对其进行了测序。基于 16S rRNA 基因的系统进化和基于 971 个同源蛋白家族的系统进化分析(超矩阵法和基因含量法)显示出热菌菌株的混合分布。基于全基因组的系统进化分析表明,所有 16 株热菌属于 5 个物种;Thermus oshimai(YIM QC-2-109、YIM 1640、YIM 1627、77359、77923、77838)、Thermus antranikianii(YIM 73052、77412、77311、71206)、Thermus brokianus(YIM 73518、71318, 72351)、热液嗜热菌(YIM 730264 和 77927)以及一个潜在的新物种 77420 与热液嗜热菌 SYSU G00506T 形成支系。虽然同种嗜热菌不同菌株的基因组在代谢途径上高度相似,但也发现了细微的差异。通过全基因组筛选检测到的 CRISPR 基因位点表明,来自两个不同热区的嗜热菌分离株具有完善的病毒防御系统,并采取相似的生存策略。此外,比较基因组分析筛选出了所有嗜热菌基因组中的能力基因座,这些基因座可能有助于从环境中获取 DNA。本研究发现,Thermus 分离物使用两种不完全反硝化途径机制,一些 Thermus 菌株产生一氧化氮,而另一些则产生一氧化二氮(二氧化二氮),这显示了 Thermus 属的异养生活方式。所有分离出的生物都编码了糖酵解、三羧酸和磷酸戊糖的完整途径。在 T. oshimai 和 T. antranikianii 菌株的基因组中发现了卡尔文-本森-巴萨姆循环基因,而所有 T. brokianus 菌株和生物 77420 的基因组中则缺乏这种基因。在所有测序的嗜热菌菌株基因组中都检测到了抗砷、抗镉和抗钴锌镉基因。77,420、77,311、73,518、77,412 和 72,351 个菌株的基因组中发现了生产苷元的基因。除菌株 YIM 730264 外,所有测序基因组中都发现了 Sox 基因簇,这表明了一种化石营养模式。通过基因组比较分析,我们还确定了 77420 为基因组类型物种,并通过全基因组序列比较确认了其作为新生物的有效性。虽然 77420 号分离物与嗜酞菌 SYSU G00506T 的 16S rRNA 基因序列相似度为 99.0%,但根据 ANI 95.86%(Jspecies)和数字 DDH 68.80%(GGDC)值,它有可能是一个新物种。同样,在系统发生树中,新分离物 77,420 与最接近的参考模式菌株嗜热沙雷氏菌 SYSU G00506T 形成一个独立的分支。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.60
自引率
11.50%
发文量
104
审稿时长
3 months
期刊介绍: Antonie van Leeuwenhoek publishes papers on fundamental and applied aspects of microbiology. Topics of particular interest include: taxonomy, structure & development; biochemistry & molecular biology; physiology & metabolic studies; genetics; ecological studies; especially molecular ecology; marine microbiology; medical microbiology; molecular biological aspects of microbial pathogenesis and bioinformatics.
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