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| Auteurs principaux: | , , , , , , , , |
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| Format: | Artículo científico |
| Langue: | en |
| Publié: |
Science advances
2026
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| Sujets: | |
| Accès en ligne: | https://pubmed.ncbi.nlm.nih.gov/41512063/ |
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| author | Su, Lei Teske, Andreas P Marshall, Ian P G Zeng, Zichao Wang, Yinzhao Konhauser, Kurt O Li, Yuhao Hou, Shengwei Li, Jiangtao |
| author_facet | Su, Lei Teske, Andreas P Marshall, Ian P G Zeng, Zichao Wang, Yinzhao Konhauser, Kurt O Li, Yuhao Hou, Shengwei Li, Jiangtao Su, Lei Teske, Andreas P Marshall, Ian P G Zeng, Zichao Wang, Yinzhao Konhauser, Kurt O Li, Yuhao Hou, Shengwei Li, Jiangtao |
| collection | PubMed - marine biology |
| contents | Genomic adaptation strategies to habitat switching in Korarchaeota. Su, Lei Teske, Andreas P Marshall, Ian P G Zeng, Zichao Wang, Yinzhao Konhauser, Kurt O Li, Yuhao Hou, Shengwei Li, Jiangtao Ecosystem Adaptation, Physiological Crenarchaeota Phylogeny Genome, Archaeal Genomics Evolution, Molecular Hot Springs Hydrothermal Vents Biological Evolution Korarchaeota, an ancient lineage of archaea, has long been overlooked in discussions of archaeal and eukaryotic evolution. Their physiology and evolutionary history have remained enigmatic due to their rarity in natural environments. Here, we assembled 101 Korarchaeota genomes from different seafloor hydrothermal vents and terrestrial hot springs, revealing that Korarchaeota lineages have undergone multiple transitions between marine and terrestrial habitats. These transitions were accompanied by genomic shifts reflecting adaptations to habitat-specific physicochemical conditions, including variations in nutrient availability, potential energy sources, osmotic conditions, and viral predation stresses. Molecular dating suggests that Korarchaeota originated ~2.84 billion years (Ga) ago, with three subsequent diversification events occurring around 2.42, 1.52, and 1.29 Ga ago. These major diversifications coincide with key geological events such as the Great Oxidation Event and the breakup and formation of supercontinents. Our findings provide insights into the evolutionary trajectory and ecological adaptations of Korarchaeota, thereby enhancing our understanding of microbial coevolution with Earth's dynamic surface environments. |
| format | Artículo científico |
| id | pubmed_41512063 |
| institution | PubMed |
| language | en |
| publishDate | 2026 |
| publisher | Science advances |
| record_format | pubmed |
| spellingShingle | Genomic adaptation strategies to habitat switching in Korarchaeota. Su, Lei Teske, Andreas P Marshall, Ian P G Zeng, Zichao Wang, Yinzhao Konhauser, Kurt O Li, Yuhao Hou, Shengwei Li, Jiangtao Ecosystem Adaptation, Physiological Crenarchaeota Phylogeny Genome, Archaeal Genomics Evolution, Molecular Hot Springs Hydrothermal Vents Biological Evolution Genomic adaptation strategies to habitat switching in Korarchaeota. Su, Lei Teske, Andreas P Marshall, Ian P G Zeng, Zichao Wang, Yinzhao Konhauser, Kurt O Li, Yuhao Hou, Shengwei Li, Jiangtao Ecosystem Adaptation, Physiological Crenarchaeota Phylogeny Genome, Archaeal Genomics Evolution, Molecular Hot Springs Hydrothermal Vents Biological Evolution Korarchaeota, an ancient lineage of archaea, has long been overlooked in discussions of archaeal and eukaryotic evolution. Their physiology and evolutionary history have remained enigmatic due to their rarity in natural environments. Here, we assembled 101 Korarchaeota genomes from different seafloor hydrothermal vents and terrestrial hot springs, revealing that Korarchaeota lineages have undergone multiple transitions between marine and terrestrial habitats. These transitions were accompanied by genomic shifts reflecting adaptations to habitat-specific physicochemical conditions, including variations in nutrient availability, potential energy sources, osmotic conditions, and viral predation stresses. Molecular dating suggests that Korarchaeota originated ~2.84 billion years (Ga) ago, with three subsequent diversification events occurring around 2.42, 1.52, and 1.29 Ga ago. These major diversifications coincide with key geological events such as the Great Oxidation Event and the breakup and formation of supercontinents. Our findings provide insights into the evolutionary trajectory and ecological adaptations of Korarchaeota, thereby enhancing our understanding of microbial coevolution with Earth's dynamic surface environments. |
| title | Genomic adaptation strategies to habitat switching in Korarchaeota. |
| topic | Ecosystem Adaptation, Physiological Crenarchaeota Phylogeny Genome, Archaeal Genomics Evolution, Molecular Hot Springs Hydrothermal Vents Biological Evolution |
| url | https://pubmed.ncbi.nlm.nih.gov/41512063/ |