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Diversity and distribution of viruses inhabiting the deepest ocean on Earth
Jian, H.; Yin, Y.; Wang, J.; Hao, Y.; Zhang, M.; Wang, S.; Meng, C.; Zhang, Y.; Jing, H.; Wang, Y.; Xiao, X. (2021). Diversity and distribution of viruses inhabiting the deepest ocean on Earth. ISME J. 15(10): 3094-3110. https://dx.doi.org/10.1038/s41396-021-00994-y
In: The ISME Journal: Multidisciplinary Journal of Microbial Ecology. Nature Publishing Group: London. ISSN 1751-7362; e-ISSN 1751-7370, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Jian, H.
  • Yin, Y.
  • Wang, J.
  • Hao, Y.
  • Zhang, M.
  • Wang, S., more
  • Meng, C.
  • Zhang, Y.
  • Jing, H.
  • Wang, Y.
  • Xiao, X.

Abstract
    As the most abundant biological entities on the planet, viruses significantly influence the overall functioning of marine ecosystems. The abundance, distribution, and biodiversity of viral communities in the upper ocean have been relatively well studied, but our understanding of viruses in the hadal biosphere remains poor. Here, we established the oceanic trench viral genome dataset (OTVGD) by analysing 19 microbial metagenomes derived from seawater and sediment samples of the Mariana, Yap, and Kermadec Trenches. The trench viral communities harbored remarkably high novelty, and they were predicted to infect ecologically important microbial clades, including Thaumarchaeota and Oleibacter. Significant inter-trench and intra-trench exchange of viral communities was proposed. Moreover, viral communities in different habitats (seawater/sediment and depth-stratified ocean zones) exhibited distinct niche-dependent distribution patterns and genomic properties. Notably, microbes and viruses in the hadopelagic seawater seemed to preferably adopt lysogenic lifestyles compared to those in the upper ocean. Furthermore, niche-specific auxiliary metabolic genes were identified in the hadal viral genomes, and a novel viral D-amino acid oxidase was functionally and phylogenetically characterized, suggesting the contribution of these genes in the utilization of refractory organic matter. Together, these findings highlight the genomic novelty, dynamic movement, and environment-driven diversification of viral communities in oceanic trenches, and suggest that viruses may influence the hadal ecosystem by reprogramming the metabolism of their hosts and modulating the community of keystone microbes.

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