Novel order-level lineage of ammonia-oxidizing archaea widespread in marine and terrestrial environments

Ammonia-oxidizing archaea (AOA) are among the most ubiquitous and abundant archaea on Earth, widely distributed in marine, terrestrial, and geothermal ecosystems. However, the genomic diversity, biogeography, and evolutionary process of AOA populations in subsurface environments are vastly understud...

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Veröffentlicht in:	The ISME Journal 2024-01, Vol.18 (1)
Hauptverfasser:	Zheng, Yue, Wang, Baozhan, Gao, Ping, Yang, Yiyan, Xu, Bu, Su, Xiaoquan, Ning, Daliang, Tao, Qing, Li, Qian, Zhao, Feng, Wang, Dazhi, Zhang, Yao, Li, Meng, Winkler, Mari-K H, Ingalls, Anitra E, Zhou, Jizhong, Zhang, Chuanlun, Stahl, David A, Jiang, Jiandong, Martens-Habbena, Willm, Qin, Wei
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Sprache:	eng
Schlagworte:	Ammonia - metabolism ammonia-oxidizing archaea Archaea Ecosystem ENVIRONMENTAL SCIENCES formate metabolism nitrate reduction nitrification Nitrosomirales Oxidation-Reduction Phylogeny RNA, Ribosomal, 16S - genetics RNA, Ribosomal, 16S - metabolism Soil Soil Microbiology sponge subsurface
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creator	Zheng, Yue Wang, Baozhan Gao, Ping Yang, Yiyan Xu, Bu Su, Xiaoquan Ning, Daliang Tao, Qing Li, Qian Zhao, Feng Wang, Dazhi Zhang, Yao Li, Meng Winkler, Mari-K H Ingalls, Anitra E Zhou, Jizhong Zhang, Chuanlun Stahl, David A Jiang, Jiandong Martens-Habbena, Willm Qin, Wei
description	Ammonia-oxidizing archaea (AOA) are among the most ubiquitous and abundant archaea on Earth, widely distributed in marine, terrestrial, and geothermal ecosystems. However, the genomic diversity, biogeography, and evolutionary process of AOA populations in subsurface environments are vastly understudied compared to those in marine and soil systems. Here, we report a novel AOA order Candidatus (Ca.) Nitrosomirales which forms a sister lineage to the thermophilic Ca. Nitrosocaldales. Metagenomic and 16S rRNA gene-read mapping demonstrates the abundant presence of Nitrosomirales AOA in various groundwater environments and their widespread distribution across a range of geothermal, terrestrial, and marine habitats. Terrestrial Nitrosomirales AOA show the genetic capacity of using formate as a source of reductant and using nitrate as an alternative electron acceptor. Nitrosomirales AOA appear to have acquired key metabolic genes and operons from other mesophilic populations via horizontal gene transfer, including genes encoding urease, nitrite reductase, and V-type ATPase. The additional metabolic versatility conferred by acquired functions may have facilitated their radiation into a variety of subsurface, marine, and soil environments. We also provide evidence that each of the four AOA orders spans both marine and terrestrial habitats, which suggests a more complex evolutionary history for major AOA lineages than previously proposed. Together, these findings establish a robust phylogenomic framework of AOA and provide new insights into the ecology and adaptation of this globally abundant functional guild.
doi_str_mv	10.1093/ismejo/wrad002
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However, the genomic diversity, biogeography, and evolutionary process of AOA populations in subsurface environments are vastly understudied compared to those in marine and soil systems. Here, we report a novel AOA order Candidatus (Ca.) Nitrosomirales which forms a sister lineage to the thermophilic Ca. Nitrosocaldales. Metagenomic and 16S rRNA gene-read mapping demonstrates the abundant presence of Nitrosomirales AOA in various groundwater environments and their widespread distribution across a range of geothermal, terrestrial, and marine habitats. Terrestrial Nitrosomirales AOA show the genetic capacity of using formate as a source of reductant and using nitrate as an alternative electron acceptor. Nitrosomirales AOA appear to have acquired key metabolic genes and operons from other mesophilic populations via horizontal gene transfer, including genes encoding urease, nitrite reductase, and V-type ATPase. The additional metabolic versatility conferred by acquired functions may have facilitated their radiation into a variety of subsurface, marine, and soil environments. We also provide evidence that each of the four AOA orders spans both marine and terrestrial habitats, which suggests a more complex evolutionary history for major AOA lineages than previously proposed. 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However, the genomic diversity, biogeography, and evolutionary process of AOA populations in subsurface environments are vastly understudied compared to those in marine and soil systems. Here, we report a novel AOA order Candidatus (Ca.) Nitrosomirales which forms a sister lineage to the thermophilic Ca. Nitrosocaldales. Metagenomic and 16S rRNA gene-read mapping demonstrates the abundant presence of Nitrosomirales AOA in various groundwater environments and their widespread distribution across a range of geothermal, terrestrial, and marine habitats. Terrestrial Nitrosomirales AOA show the genetic capacity of using formate as a source of reductant and using nitrate as an alternative electron acceptor. Nitrosomirales AOA appear to have acquired key metabolic genes and operons from other mesophilic populations via horizontal gene transfer, including genes encoding urease, nitrite reductase, and V-type ATPase. The additional metabolic versatility conferred by acquired functions may have facilitated their radiation into a variety of subsurface, marine, and soil environments. We also provide evidence that each of the four AOA orders spans both marine and terrestrial habitats, which suggests a more complex evolutionary history for major AOA lineages than previously proposed. Together, these findings establish a robust phylogenomic framework of AOA and provide new insights into the ecology and adaptation of this globally abundant functional guild.</abstract><cop>England</cop><pub>Nature Publishing Group</pub><pmid>38365232</pmid><doi>10.1093/ismejo/wrad002</doi><orcidid>https://orcid.org/0000-0003-0895-0126</orcidid><orcidid>https://orcid.org/0000000308950126</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Ammonia - metabolism ammonia-oxidizing archaea Archaea Ecosystem ENVIRONMENTAL SCIENCES formate metabolism nitrate reduction nitrification Nitrosomirales Oxidation-Reduction Phylogeny RNA, Ribosomal, 16S - genetics RNA, Ribosomal, 16S - metabolism Soil Soil Microbiology sponge subsurface
title	Novel order-level lineage of ammonia-oxidizing archaea widespread in marine and terrestrial environments
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