First Report on Detection and Complete Genomic Analysis of a Novel CRESS DNA Virus from Sea Turtles

Author:

Gainor Kerry1ORCID,Stewart Kimberly M.12,Picknell Angela12,Russ Morgan12,Makela Noah12ORCID,Watson Kierra12,Mancuso Diana M.1,Malik Yashpal Singh3ORCID,Ghosh Souvik1ORCID

Affiliation:

1. Department of Biomedical Sciences, Ross University School of Veterinary Medicine, Basseterre P.O. Box 334, Saint Kitts and Nevis

2. St. Kitts Sea Turtle Monitoring Network, Basseterre P.O. Box 2298, Saint Kitts and Nevis

3. College of Animal Biotechnology, Guru Angad Dev Veterinary and Animal Science University, Ludhiana 141012, India

Abstract

To date, only a handful of viruses have been identified in sea turtles. Although eukaryotic circular Rep (replication initiation protein)-encoding single-stranded DNA (CRESS DNA) viruses have been reported from a wide variety of terrestrial species, and some of these viruses have been associated with clinical conditions in certain animals, limited information is available on CRESS DNA viruses from marine life. The present study aimed to investigate the presence of CRESS DNA viruses in sea turtles. In the present study, two (samples T3 and T33) of the 34 cloacal samples from 31 sea turtles (found in ocean waters around the Caribbean Islands of St. Kitts and Nevis) tested positive for CRESS DNA viruses by a pan-rep nested PCR assay. The partial Rep sequence of T3 shared 75.78% of a deduced amino acid (aa) identity with that of a CRESS DNA virus (classified under family Circoviridae) from a mollusk. On the other hand, the complete genome (2428 bp) of T33 was determined by an inverse nested PCR assay. The genomic organization of T33 mirrored those of type II CRESS DNA viral genomes of cycloviruses, characterized by the putative “origin of replication” in the 5’-intergenic region, and the putative Capsid (Cap)- and Rep-encoding open reading frame on the virion-sense- and antisense-strand, respectively. The putative Rep (322 aa) of T33 retained the conserved “HUH endonuclease” and the “super 3 family helicase” domains and shared pairwise aa identities of ~57% with unclassified CRESS DNA viruses from benthic sediment and mollusks. Phylogenetically, the T33 Rep formed a distinct branch within an isolated cluster of unclassified CRESS DNA viruses. The putative Cap (370 aa) of T33 shared maximum pairwise aa identity of 30.51% with an unclassified CRESS DNA virus from a capybara. Except for a blood sample from T33 that tested negative for CRESS DNA viruses, other tissue samples were not available from the sea turtles. Therefore, we could not establish whether the T3 and T33 viral strains infected the sea turtles or were of dietary origin. To our knowledge, this is the first report on the detection of CRESS DNA viruses from sea turtles, adding yet another animal species to the rapidly expanding host range of these viruses. Complete genome analysis of T33 identified a novel, unclassified CRESS DNA virus, providing insights into the high genetic diversity between viruses within the phylum Cressdnaviricota. Considering that sea turtles are an at-risk species, extensive studies on virus discovery, surveillance, and pathogenesis in these marine animals are of the utmost importance.

Funder

One Health Center for Zoonoses and Tropical Veterinary Medicine, Ross University School of Veterinary Medicine, Saint Kitts and Nevis

Publisher

MDPI AG

Subject

Infectious Diseases,Microbiology (medical),General Immunology and Microbiology,Molecular Biology,Immunology and Allergy

Reference42 articles.

1. Bennett, L. (2023, March 01). Sea Turtles. Smithsonian Ocean Portal. Available online: https://ocean.si.edu/ocean-life/reptiles/sea-turtles.

2. Sea Turtle Conservancy (2023, March 01). Information about Sea Turtles: An Introduction. Available online: https://conserveturtles.org/information-about-sea-turtles-an-introduction/.

3. National Geographic Society (2023, March 01). Sea Turtles 101. Available online: https://www.nationalgeographic.com/animals/reptiles/facts/sea-turtles.

4. Mashkour, N., Jones, K., Kophamel, S., Hipolito, T., Ahasan, S., Walker, G., Jakob-Hoff, R., Whittaker, M., Hamann, M., and Bell, I. (2020). Disease Risk Analysis in Sea Turtles: A Baseline Study to Inform Conservation Efforts. PLoS ONE, 15.

5. ICUN (2023, March 01). The IUCN Red List of Threatened Species. Available online: https://www.iucnredlist.org/search?query=sea%20turtle&searchType=species.

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