Source: WASHINGTON STATE UNIVERSITY submitted to
DEVELOPMENT AND VALIDATION OF MOLECULAR DIAGNOSTIC ASSAYS FOR THE DETECTION OF A LETHAL VIRAL DISEASE OF CULTURED AND WILD WHITE STURGEON (ACIPENSER TRANSMONTANUS)
Sponsoring Institution
National Institute of Food and Agriculture
Project Status
ACTIVE
Funding Source
OTHER GRANTS
Reporting Frequency
Annual
Accession No.
1033173
Grant No.
2024-70007-43602
Cumulative Award Amt.
$306,292.00
Proposal No.
2024-05550
Multistate No.
(N/A)
Project Start Date
Sep 1, 2024
Project End Date
Aug 31, 2026
Grant Year
2024
Program Code
[AQUA]- Aquaculture Research
Project Director
Waltzek, T. B.
Recipient Organization
WASHINGTON STATE UNIVERSITY
240 FRENCH ADMINISTRATION BLDG
PULLMAN,WA 99164-0001
Performing Department
(N/A)
Non Technical Summary
The emergence of lethal viruses have negatively impacted the culture of white sturgeon for food or restoration efforts in the Pacific Northwest (PNW) of North America for decades. An irido-like virus is the most significant pathogen of juvenile white sturgeon (white sturgeon iridovirus; WSIV) resulting in up to 95% mortality under intensive culture. WSIV has also been detected in wild white sturgeon from the lower Columbia River in Oregon and Washington, the Snake River in southern Idaho, and the Kootenai River in northern Idaho. Despite the threat this virus poses, no surveillance programs are in place due to the unavailability of molecular diagnostic assays. Development of molecular viral diagnostic assays has been hampered by the minimal genomic sequence data available for WSIV. To fill this industry need, we propose the following research objectives to: 1) sequence, assemble, and annotate the genomes of WSIV isolates; 2) perform phylogenetic analyses to update the taxonomy of WSIV; 3) develop, optimize, and validate the analytic performance of a quantitative PCR (qPCR) and rapid CRISPR diagnostic assay for the detection of WSIV; and 4) perform experimental WSIV challenges to generate known positive and negative samples to determine the diagnostic performance of the WSIV qPCR and CRISPR assays compared to conventional PCR assays (gold standard). This technological leap forward in science with the development of both high-sensitivity qPCR and rapid on-site CRISPR viral diagnostics will ensure U.S. farmers can sustain the iconic white sturgeon fishery throughout the PNW while protecting domestic/international markets of fillets and caviar.
Animal Health Component
40%
Research Effort Categories
Basic
20%
Applied
40%
Developmental
40%
Classification

Knowledge Area (KA)Subject of Investigation (SOI)Field of Science (FOS)Percent
31108101101100%
Knowledge Area
311 - Animal Diseases;

Subject Of Investigation
0810 - Finfish;

Field Of Science
1101 - Virology;
Goals / Objectives
Study Objective 1: Sequence, assemble, and annotate the genomes of WSIV isolates. Study Objective 2: Perform genetic and phylogenetic analyses to update the taxonomy of WSIV. Study Objective 3: Develop, optimize, and validate the analytic performance of WSIV diagnostic assays. Study Objective 4: Perform WSIV experimental challenges to generate positive and negative samples to estimate the diagnostic performance of the diagnostic assays when compared to the gold standard PCR.
Project Methods
Methods for Objective 1: Sequence, assemble, and annotate the genomes of WSIV isolates.Methods for Objective 2: Perform phylogenetic analyses to update the taxonomy of WSIV.Methods for Objective 3. Develop, optimize, and validate the analytic performance of the WSIV diagnostic assays.Methods for Objective 4: Perform WSIV experimental challenges to generate positive and negative samples to estimate the diagnostic performance of the diagnostic assays when compared to the gold standard.