Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes
The archaeal tailed viruses (arTV), evolutionarily related to tailed double-stranded DNA (dsDNA) bacteriophages of the class Caudoviricetes, represent the most common isolates infecting halophilic archaea. Only a handful of these viruses have been genomically characterized, limiting our appreciation...
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th-mahidol.755442022-08-04T18:14:49Z Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes Ying Liu Tatiana A. Demina Simon Roux Pakorn Aiewsakun Darius Kazlauskas Peter Simmonds David Prangishvili Hanna M. Oksanen Mart Krupovic Université Paris Cité Ivane Javakhishvili Tbilisi State University Vilniaus Universitetas U.S. Department of Energy Joint Genome Institute Mahidol University Nuffield Department of Medicine Helsingin Yliopisto Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Neuroscience The archaeal tailed viruses (arTV), evolutionarily related to tailed double-stranded DNA (dsDNA) bacteriophages of the class Caudoviricetes, represent the most common isolates infecting halophilic archaea. Only a handful of these viruses have been genomically characterized, limiting our appreciation of their ecological impacts and evolution. Here, we present 37 new genomes of haloarchaeal tailed virus isolates, more than doubling the current number of sequenced arTVs. Analysis of all 63 available complete genomes of arTVs, which we propose to classify into 14 new families and 3 orders, suggests ancient divergence of archaeal and bacterial tailed viruses and points to an extensive sharing of genes involved in DNA metabolism and counter defense mechanisms, illuminating common strategies of virus-host interactions with tailed bacteriophages. Coupling of the comparative genomics with the host range analysis on a broad panel of haloarchaeal species uncovered 4 distinct groups of viral tail fiber adhesins controlling the host range expansion. The survey of metagenomes using viral hallmark genes suggests that the global architecture of the arTV community is shaped through recurrent transfers between different biomes, including hypersaline, marine, and anoxic environments. Copyright: 2022-08-04T07:54:31Z 2022-08-04T07:54:31Z 2021-11-01 Article PLoS Biology. Vol.19, No.11 (2021) 10.1371/journal.pbio.3001442 15457885 15449173 2-s2.0-85119909638 https://repository.li.mahidol.ac.th/handle/123456789/75544 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85119909638&origin=inward |
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Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Neuroscience |
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Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Neuroscience Ying Liu Tatiana A. Demina Simon Roux Pakorn Aiewsakun Darius Kazlauskas Peter Simmonds David Prangishvili Hanna M. Oksanen Mart Krupovic Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes |
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The archaeal tailed viruses (arTV), evolutionarily related to tailed double-stranded DNA (dsDNA) bacteriophages of the class Caudoviricetes, represent the most common isolates infecting halophilic archaea. Only a handful of these viruses have been genomically characterized, limiting our appreciation of their ecological impacts and evolution. Here, we present 37 new genomes of haloarchaeal tailed virus isolates, more than doubling the current number of sequenced arTVs. Analysis of all 63 available complete genomes of arTVs, which we propose to classify into 14 new families and 3 orders, suggests ancient divergence of archaeal and bacterial tailed viruses and points to an extensive sharing of genes involved in DNA metabolism and counter defense mechanisms, illuminating common strategies of virus-host interactions with tailed bacteriophages. Coupling of the comparative genomics with the host range analysis on a broad panel of haloarchaeal species uncovered 4 distinct groups of viral tail fiber adhesins controlling the host range expansion. The survey of metagenomes using viral hallmark genes suggests that the global architecture of the arTV community is shaped through recurrent transfers between different biomes, including hypersaline, marine, and anoxic environments. Copyright: |
| author2 |
Université Paris Cité |
| author_facet |
Université Paris Cité Ying Liu Tatiana A. Demina Simon Roux Pakorn Aiewsakun Darius Kazlauskas Peter Simmonds David Prangishvili Hanna M. Oksanen Mart Krupovic |
| format |
Article |
| author |
Ying Liu Tatiana A. Demina Simon Roux Pakorn Aiewsakun Darius Kazlauskas Peter Simmonds David Prangishvili Hanna M. Oksanen Mart Krupovic |
| author_sort |
Ying Liu |
| title |
Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes |
| title_short |
Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes |
| title_full |
Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes |
| title_fullStr |
Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes |
| title_full_unstemmed |
Diversity, taxonomy, and evolution of archaeal viruses of the class Caudoviricetes |
| title_sort |
diversity, taxonomy, and evolution of archaeal viruses of the class caudoviricetes |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/75544 |
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1763498206911528960 |