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A new high throughput sequencing assay for characterizing the diversity of natural vibrio communities and its application to a Pacific oyster mortality event

A new high throughput sequencing assay for characterizing the diversity of natural vibrio communities and its application to a Pacific oyster mortality event
A new high throughput sequencing assay for characterizing the diversity of natural vibrio communities and its application to a Pacific oyster mortality event

The Vibrio genus is notable for including several pathogens of marine animals and humans, yet characterization of Vibrio diversity using routine 16S rRNA sequencing methods is often constrained by poor resolution beyond the genus level. Here, a new high throughput sequencing approach targeting the heat shock protein (hsp60) as a phylogenetic marker was developed to more precisely discriminate members of the Vibrio genus in environmental samples. The utility of this new assay was tested using mock communities constructed from known dilutions of Vibrio isolates. Relative to standard and Vibrio-specific 16S rRNA sequencing assays, the hsp60 assay delivered high levels of fidelity with the mock community composition at the species level, including discrimination of species within the Vibrio harveyi clade. This assay was subsequently applied to characterize Vibrio community composition in seawater and delivered substantially improved taxonomic resolution of Vibrio species compared to 16S rRNA analysis. Finally, this assay was applied to examine patterns in the Vibrio community within oysters during a Pacific oyster mortality event. In these oysters, the hsp60 assay identified species-level Vibrio community shifts prior to disease onset, pinpointing V. harveyi as a putative pathogen. Given that shifts in the Vibrio community can precede, cause, and follow disease onset in numerous marine organisms, there is a need for an accurate high throughput assay for defining Vibrio community composition in natural samples. This Vibrio-centric hsp60 sequencing assay offers the potential for precise high throughput characterization of Vibrio diversity, providing an enhanced platform for dissecting Vibrio dynamics in the environment.

DNA sequencing, hsp60, marine microbiology, oyster (Crassostrea gigas), seawater, Vibrio, Vibrio communities
1664-302X
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Siboni, Nachshon
cd5ba51e-896e-4b3f-be74-ab136fd96675
Kahlke, Tim
7e81423a-06db-4430-ba7a-7981c91501bb
Green, Timothy J.
7af314e0-92e8-476b-b575-4f01932d5525
Labbate, Maurizio
033d5ac8-a659-47ff-a5dc-79e99fa46ea4
Seymour, Justin R.
9b8a8df1-b392-4a9b-a513-54ea4c7172c7
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Siboni, Nachshon
cd5ba51e-896e-4b3f-be74-ab136fd96675
Kahlke, Tim
7e81423a-06db-4430-ba7a-7981c91501bb
Green, Timothy J.
7af314e0-92e8-476b-b575-4f01932d5525
Labbate, Maurizio
033d5ac8-a659-47ff-a5dc-79e99fa46ea4
Seymour, Justin R.
9b8a8df1-b392-4a9b-a513-54ea4c7172c7

King, William L., Siboni, Nachshon, Kahlke, Tim, Green, Timothy J., Labbate, Maurizio and Seymour, Justin R. (2019) A new high throughput sequencing assay for characterizing the diversity of natural vibrio communities and its application to a Pacific oyster mortality event. Frontiers in Microbiology, 10, [2907]. (doi:10.3389/fmicb.2019.02907).

Record type: Article

Abstract

The Vibrio genus is notable for including several pathogens of marine animals and humans, yet characterization of Vibrio diversity using routine 16S rRNA sequencing methods is often constrained by poor resolution beyond the genus level. Here, a new high throughput sequencing approach targeting the heat shock protein (hsp60) as a phylogenetic marker was developed to more precisely discriminate members of the Vibrio genus in environmental samples. The utility of this new assay was tested using mock communities constructed from known dilutions of Vibrio isolates. Relative to standard and Vibrio-specific 16S rRNA sequencing assays, the hsp60 assay delivered high levels of fidelity with the mock community composition at the species level, including discrimination of species within the Vibrio harveyi clade. This assay was subsequently applied to characterize Vibrio community composition in seawater and delivered substantially improved taxonomic resolution of Vibrio species compared to 16S rRNA analysis. Finally, this assay was applied to examine patterns in the Vibrio community within oysters during a Pacific oyster mortality event. In these oysters, the hsp60 assay identified species-level Vibrio community shifts prior to disease onset, pinpointing V. harveyi as a putative pathogen. Given that shifts in the Vibrio community can precede, cause, and follow disease onset in numerous marine organisms, there is a need for an accurate high throughput assay for defining Vibrio community composition in natural samples. This Vibrio-centric hsp60 sequencing assay offers the potential for precise high throughput characterization of Vibrio diversity, providing an enhanced platform for dissecting Vibrio dynamics in the environment.

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More information

Published date: 20 December 2019
Additional Information: Funding Information: This research was supported by an Australian Research Council Linkage Project (LP160101785) to JS and ML; a Cooperative Research Centre Project (CRC-P 2016-805; Future Oysters), led by the Australian Seafood Industry Pty Ltd in partnership with a number of Australian research organizations; and Ausgem, a research partnership initiated between the University of Technology Sydney and the New South Wales Department of Primary Industries. Publisher Copyright: © Copyright © 2019 King, Siboni, Kahlke, Green, Labbate and Seymour.
Keywords: DNA sequencing, hsp60, marine microbiology, oyster (Crassostrea gigas), seawater, Vibrio, Vibrio communities

Identifiers

Local EPrints ID: 486614
URI: http://eprints.soton.ac.uk/id/eprint/486614
DOI: doi:10.3389/fmicb.2019.02907
ISSN: 1664-302X
PURE UUID: 0bcc40dd-9c6e-406f-bbe6-ff82c568e127
ORCID for William L. King: ORCID iD orcid.org/0000-0001-7272-8242

Catalogue record

Date deposited: 26 Jan 2024 18:01
Last modified: 18 Mar 2024 04:18

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Contributors

Author: William L. King ORCID iD
Author: Nachshon Siboni
Author: Tim Kahlke
Author: Timothy J. Green
Author: Maurizio Labbate
Author: Justin R. Seymour

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