Candidatus Nitrosopolaris, a genus of putative ammonia-oxidizing archaea with a polar/alpine distribution.

Igor S Pessi, Aino Rutanen, Jenni Hultman
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引用次数: 7

Abstract

Ammonia-oxidizing archaea (AOA) are key players in the nitrogen cycle of polar soils. Here, we analyzed metagenomic data from tundra soils in Rásttigáisá, Norway, and recovered four metagenome-assembled genomes (MAGs) assigned to the genus 'UBA10452', an uncultured lineage of putative AOA in the order Nitrososphaerales ('terrestrial group I.1b'), phylum Thaumarchaeota. Analysis of other eight previously reported MAGs and publicly available amplicon sequencing data revealed that the UBA10452 lineage is predominantly found in acidic polar and alpine soils. In particular, UBA10452 MAGs were more abundant in highly oligotrophic environments such as mineral permafrost than in more nutrient-rich, vegetated tundra soils. UBA10452 MAGs harbour multiple copies of genes related to cold tolerance, particularly genes involved in DNA replication and repair. Based on the phylogenetic, biogeographic, and ecological characteristics of 12 UBA10452 MAGs, which include a high-quality MAG (90.8% complete, 3.9% redundant) with a nearly complete 16S rRNA gene, we propose a novel Candidatus genus, Ca. Nitrosopolaris, with four species representing clear biogeographic/habitat clusters.

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nitropolaris,一个推测的氨氧化古菌属,分布于极地/高山。
氨氧化古菌(AOA)是极地土壤氮循环的重要参与者。在这里,我们分析了来自挪威Rásttigáisá冻土带土壤的宏基因组数据,并恢复了4个宏基因组组装基因组(MAGs),它们被分配到“UBA10452”属,这是一个未经培养的亚硝酸藻目AOA谱系(“陆生类群I.1b”),Thaumarchaeota门。对其他8个先前报道的mag和公开的扩增子测序数据的分析显示,UBA10452谱系主要存在于酸性极地和高山土壤中。特别是,UBA10452 mag在矿物永久冻土等高度贫营养环境中比在营养丰富的植被苔原土壤中更丰富。UBA10452 mag含有多个与耐寒性相关的基因拷贝,特别是涉及DNA复制和修复的基因。基于12个UBA10452 MAG的系统发育、生物地理和生态特征,包括一个高质量MAG(90.8%完整,3.9%冗余)和一个接近完整的16S rRNA基因,我们提出了一个新的Candidatus属Ca. Nitrosopolaris,其中4个物种具有明确的生物地理/生境集群。
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来源期刊
CiteScore
3.30
自引率
0.00%
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0
审稿时长
15 weeks
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