The Epidermal Microbiome Within An Aggregation of Leopard Sharks (Triakis Semifasciata) Has Taxonomic Flexibility With Gene Functional Stability Across Three Time-Points

Doane, Michael P.; Johnson, Colton; Johri, Shaili; Kerr, Emma N.; Morris, Megan M.; Desantiago, Ric; Turnlund, Abigail C.; Goodman, Asha Z.; Mora, María F.; Lima, Laís Farias Oliveira; Nosal, Andrew P.; Dinsdale, Elizabeth A.

doi:10.21203/rs.3.rs-850465/v1

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2021

DOI: 10.21203/rs.3.rs-850465/v1

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The Epidermal Microbiome Within An Aggregation of Leopard Sharks (Triakis Semifasciata) Has Taxonomic Flexibility With Gene Functional Stability Across Three Time-Points

Michael P. Doane

Colton Johnson

Shaili Johri

et al.

Abstract: Background: The epidermis of Chondrichthyan fishes consists of dermal denticles with production of minimal but protein rich mucus that influence the attachment and biofilm development of microbes, facilitating a unique epidermal microbiome. Here, we use metagenomics to provide the taxonomic and functional characterization of the epidermal microbiome of the Triakis semifasciata (leopard shark) across three time-points to identify links between microbial groups and host metabolism. Our aims include 1) describing… Show more

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Phage Diving: An Exploration of the Carcharhinid Shark Epidermal Virome

Hesse

Roach

Kerr

et al. 2022

Viruses

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The epidermal microbiome is a critical element of marine organismal immunity, but the epidermal virome of marine organisms remains largely unexplored. The epidermis of sharks represents a unique viromic ecosystem. Sharks secrete a thin layer of mucus which harbors a diverse microbiome, while their hydrodynamic dermal denticles simultaneously repel environmental microbes. Here, we sampled the virome from the epidermis of three shark species in the family Carcharhinidae: the genetically and morphologically similar Carcharhinus obscurus (n = 6) and Carcharhinus galapagensis (n = 10) and the outgroup Galeocerdo cuvier (n = 15). Virome taxonomy was characterized using shotgun metagenomics and compared with a suite of multivariate analyses. All three sharks retain species-specific but highly similar epidermal viromes dominated by uncharacterized bacteriophages which vary slightly in proportional abundance within and among shark species. Intraspecific variation was lower among C. galapagensis than among C. obscurus and G. cuvier. Using both the annotated and unannotated reads, we were able to determine that the Carcharhinus galapagensis viromes were more similar to that of G. cuvier than they were to that of C. obscurus, suggesting that behavioral niche may be a more prominent driver of virome than host phylogeny.

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Phage Diving: An Exploration of the Carcharhinid Shark Epidermal Virome

Hesse

Roach

Kerr

et al. 2022

Viruses

View full text Add to dashboard Cite

show abstract

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The Epidermal Microbiome Within An Aggregation of Leopard Sharks (Triakis Semifasciata) Has Taxonomic Flexibility With Gene Functional Stability Across Three Time-Points

Cited by 1 publication

References 64 publications

Phage Diving: An Exploration of the Carcharhinid Shark Epidermal Virome

Phage Diving: An Exploration of the Carcharhinid Shark Epidermal Virome

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