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dc.contributor.authorMeng, Lingjieen
dc.contributor.authorDelmont, Tom O.en
dc.contributor.authorGaïa, Morganen
dc.contributor.authorPelletier, Ericen
dc.contributor.authorFernàndez-Guerra, Antonioen
dc.contributor.authorChaffron, Samuelen
dc.contributor.authorNeches, Russell Y.en
dc.contributor.authorWu, Junyien
dc.contributor.authorKaneko, Hirotoen
dc.contributor.authorEndo, Hisashien
dc.contributor.authorOgata, Hiroyukien
dc.contributor.alternative孟, 令杰ja
dc.contributor.alternativeネッシュ, ラッセル・ヤングja
dc.contributor.alternative呉, 君毅ja
dc.contributor.alternative金子, 博人ja
dc.contributor.alternative遠藤, 寿ja
dc.contributor.alternative緒方, 博之ja
dc.date.accessioned2023-10-13T07:40:10Z-
dc.date.available2023-10-13T07:40:10Z-
dc.date.issued2023-10-12-
dc.identifier.urihttp://hdl.handle.net/2433/285533-
dc.description寒冷域と温暖域ではウイルスの遺伝子組成が異なる --巨大ウイルスの環境適応--. 京都大学プレスリリース. 2023-10-13.ja
dc.description.abstractDespite being perennially frigid, polar oceans form an ecosystem hosting high and unique biodiversity. Various organisms show different adaptive strategies in this habitat, but how viruses adapt to this environment is largely unknown. Viruses of phyla Nucleocytoviricota and Mirusviricota are groups of eukaryote-infecting large and giant DNA viruses with genomes encoding a variety of functions. Here, by leveraging the Global Ocean Eukaryotic Viral database, we investigate the biogeography and functional repertoire of these viruses at a global scale. We first confirm the existence of an ecological barrier that clearly separates polar and nonpolar viral communities, and then demonstrate that temperature drives dramatic changes in the virus–host network at the polar–nonpolar boundary. Ancestral niche reconstruction suggests that adaptation of these viruses to polar conditions has occurred repeatedly over the course of evolution, with polar-adapted viruses in the modern ocean being scattered across their phylogeny. Numerous viral genes are specifically associated with polar adaptation, although most of their homologues are not identified as polar-adaptive genes in eukaryotes. These results suggest that giant viruses adapt to cold environments by changing their functional repertoire, and this viral evolutionary strategy is distinct from the polar adaptation strategy of their hosts.en
dc.language.isoeng-
dc.publisherSpringer Natureen
dc.rights© The Author(s) 2023en
dc.rightsThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder.en
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/-
dc.subjectMarine biologyen
dc.subjectMicrobial ecologyen
dc.subjectViral evolutionen
dc.titleGenomic adaptation of giant viruses in polar oceansen
dc.typejournal article-
dc.type.niitypeJournal Article-
dc.identifier.jtitleNature Communicationsen
dc.identifier.volume14-
dc.relation.doi10.1038/s41467-023-41910-6-
dc.textversionpublisher-
dc.identifier.artnum6233-
dc.addressBioinformatics Center, Institute for Chemical Research, Kyoto Universityen
dc.addressGénomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay; Research Federation for the study of Global Ocean systems ecology and evolution, FR2022/Tara GOseeen
dc.addressGénomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay; Research Federation for the study of Global Ocean systems ecology and evolution, FR2022/Tara GOseeen
dc.addressGénomique Métabolique, Genoscope, Institut François Jacob, CEA, CNRS, Univ Evry, Université Paris-Saclay; Research Federation for the study of Global Ocean systems ecology and evolution, FR2022/Tara GOseeen
dc.addressLundbeck Foundation GeoGenetics Centre, GLOBE Institute, University of Copenhagenen
dc.addressResearch Federation for the study of Global Ocean systems ecology and evolution, FR2022/Tara GOsee; Nantes Université, École Centrale Nantes, CNRSen
dc.addressBioinformatics Center, Institute for Chemical Research, Kyoto Universityen
dc.addressBioinformatics Center, Institute for Chemical Research, Kyoto Universityen
dc.addressBioinformatics Center, Institute for Chemical Research, Kyoto Universityen
dc.addressBioinformatics Center, Institute for Chemical Research, Kyoto Universityen
dc.addressBioinformatics Center, Institute for Chemical Research, Kyoto Universityen
dc.identifier.pmid37828003-
dc.relation.urlhttps://www.kyoto-u.ac.jp/ja/research-news/2023-10-13-
dcterms.accessRightsopen access-
datacite.awardNumber18H02279-
datacite.awardNumber22H00384-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-18H02279/-
datacite.awardNumber.urihttps://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22H00384/-
dc.identifier.eissn2041-1723-
jpcoar.funderName日本学術振興会ja
jpcoar.funderName日本学術振興会ja
jpcoar.awardTitle巨大ウイルスが水圏低次生態系で果たす役割の包括的解明ja
jpcoar.awardTitle無光層 --太陽光の届かない水圏-- に棲息する巨大ウイルスの生態ja
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