The metagenomic landscape of a high-altitude geothermal spring in Tajikistan reveals a novel Desulfurococcaceae member, Zestomicrobium tamdykulense gen. nov., sp. nov

IF 3.9 3区生物学 Q2 MICROBIOLOGY

MicrobiologyOpen Pub Date : 2024-10-10 DOI:10.1002/mbo3.70004

Munavvara Dzhuraeva, Khursheda Bobodzhanova, Nils-Kåre Birkeland

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Abstract

Metagenomic analysis was conducted to assess the microbial community in the high-altitude Tamdykul geothermal spring in Tajikistan. This analysis yielded six high-quality bins from the members of Thermaceae, Aquificaceae, and Halothiobacillaceae, with a 41.2%, 19.7%, and 18.1% share in the total metagenome, respectively. Minor components included Schleiferia thermophila (1.6%) and members of the archaeal taxa Pyrobaculum (1.2%) and Desulfurococcaceae (0.7%). Further analysis of the metagenome-assembled genome (MAG) from the Desulfurococcaceae family (MAG002) revealed novel taxonomy with only 80.95% closest placement average nucleotide identity value to its most closely related member of the Desulfurococcaceae family, which is part of the Thermoproteota phylum comprising hyperthermophilic members widespread in geothermal environments. MAG002 consisted of 1.3 Mbp, distributed into 48 contigs with 1504 predicted coding sequences, had an average GC content of 41.3%, a completeness and contamination rate of 98.7% and 2.6%, respectively, and branched phylogenetically between the Ignisphaera and Zestosphaera lineages. Digital DNA-DNA hybridization values compared with Ignisphaera aggregans and Zestosphaera tikiterensis were 33.7% and 19.4%, respectively, suggesting that this MAG represented a novel species and genus. Its 16S rRNA gene contained a large 421 bp intron. It encodes a complete gluconeogenesis pathway involving a bifunctional fructose-1,6-bisphosphate phosphatase/aldolase; however, the glycolysis pathway is incomplete. The ribulose monophosphate pathway enzymes could be used for pentose synthesis. MAG002 encodes several hydrogen-evolving hydrogenases, with possible roles as hydrogen sinks during fermentation. We propose the name Zestomicrobium tamdykulense gen. nov. sp. nov. for this organism; it is the first thermophilic genome reported from Tajikistan.

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塔吉克斯坦高海拔地热泉的元基因组景观揭示了一种新的Desulfurococcaceae成员--Zestomicrobium tamdykulense gen.

为评估塔吉克斯坦高海拔 Tamdykul 地热泉的微生物群落，我们进行了元基因组分析。分析得出了来自热科、水生植物科和卤硫杆菌科成员的六个高质量分区，分别占元基因组总量的 41.2%、19.7% 和 18.1%。次要成分包括嗜热裂殖杆菌（1.6%）以及古细菌类群中的Pyrobaculum（1.2%）和Desulfurococcaceae（0.7%）。对来自 Desulfurococcaceae 家族的元基因组组装基因组（MAG）（MAG002）的进一步分析表明，该基因组与 Desulfurococcaceae 家族中与其关系最密切的成员只有 80.95% 的最接近位置平均核苷酸同一性，而 Desulfurococcaceae 家族是热蛋白门的一部分，由广泛分布于地热环境中的嗜热成员组成。MAG002 的长度为 1.3 Mbp，分为 48 个等位组，有 1504 个预测编码序列，平均 GC 含量为 41.3%，完整率和污染率分别为 98.7% 和 2.6%，在系统发育上介于 Ignisphaera 和 Zestosphaera 两系之间。与 Ignisphaera aggregans 和 Zestosphaera tikiterensis 的数字 DNA-DNA 杂交值分别为 33.7% 和 19.4%，表明该 MAG 是一个新种和新属。其 16S rRNA 基因包含一个 421 bp 的大内含子。它编码了一个完整的葡萄糖生成途径，其中包括一个双功能果糖-1,6-二磷酸磷酸酶/醛酸酶；但糖酵解途径不完整。单磷酸核酮糖途径酶可用于戊糖合成。MAG002 编码了几种氢发生氢酶，可能在发酵过程中起到氢汇的作用。我们建议将该生物命名为 Zestomicrobium tamdykulense gen.

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来源期刊

MicrobiologyOpen MICROBIOLOGY-

CiteScore

8.00

自引率

0.00%

发文量

审稿时长

20 weeks

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