2023
DOI: 10.1101/2023.10.15.562385
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Viromes vs. mixed community metagenomes: choice of method dictates interpretation of viral community ecology

James C. Kosmopoulos,
Katherine M. Klier,
Marguerite V. Langwig
et al.

Abstract: Viruses, the majority of which are uncultivated, are among the most abundant biological entities in microbiomes and ecosystems on Earth. From selfishly altering community-wide microbial physiology to driving microbiome dynamics, viruses (particularly bacteriophage) are fundamental members of microbiomes. While the number of studies leveraging viral metagenomics (viromics) for studying uncultivated viruses is growing, standards for viromics research are lacking. Viromics can leverage computational discovery of … Show more

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Cited by 3 publications
(9 citation statements)
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“…Here we compare how two common forms of phage community sampling, bioinformatic mining of total metagenomes and targeted sequencing of viromes, influence the phage communities recovered from the guts of two commercially important bee species: Apis mellifera and Bombus impatiens. Similar to the results of previous studies [16][17][18] , we show that sampling method significantly affected alpha diversity, beta diversity, composition, and structure of sampled phage communities. In particular, we show that viromes outperform total metagenomes in terms of the number of phage recovered, but that this can depend on the specific environment being sampled.…”
Section: Discussionsupporting
confidence: 89%
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“…Here we compare how two common forms of phage community sampling, bioinformatic mining of total metagenomes and targeted sequencing of viromes, influence the phage communities recovered from the guts of two commercially important bee species: Apis mellifera and Bombus impatiens. Similar to the results of previous studies [16][17][18] , we show that sampling method significantly affected alpha diversity, beta diversity, composition, and structure of sampled phage communities. In particular, we show that viromes outperform total metagenomes in terms of the number of phage recovered, but that this can depend on the specific environment being sampled.…”
Section: Discussionsupporting
confidence: 89%
“…While our results highlight the ability of total metagenomes to recover phage missed by viromes, they also showcase the capacity of viromes to sample a greater diversity of phage. Similar to previous comparisons of viromes and total metagenomes in human gut, soil, and freshwater environments 17,18,29 , our honey bee viromes recovered a substantially larger number of phage than did total metagenomes. Further, the occupancy-abundance relationships examined here and by Medellin et al 16 show that total metagenomes tend to be biased towards sampling the most abundant and prevalent phage, while viromes are more successful at sampling rare phage.…”
Section: Discussionsupporting
confidence: 84%
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