Location: U.S. Dairy Forage Research Center
Project Number: 5090-31320-002-00
Start Date: Oct 01, 2010
End Date: Jun 30, 2015
For objective 1, we will characterize important phenotypes and genotypes in yellow perch broodstocks. Third-generation progeny will undergo performance testing for improved growth and survival and decreased susceptibility to the viral hemorrhagic septicemia (VHS) virus. This will involve evaluation of genotype x environment interactions in laboratory and industrial settings. This information will provide estimates for the heritability of desired traits (growth and VHS resistance) and a better understanding of the sources of phenotypic variation for these traits. For objective 2, we will generate genomic resources to aid in development of molecular tools to genotype and quantify expression of genes involved with growth and immunity in yellow perch. We will also develop proteomic tools that will enable us to measure and characterize the function of critical proteins (hormones and immune markers) important to growth and immunity for this species. Genomic tools will come from next-generation sequencing efforts to characterize the transcriptomes (expressed genes) of key tissues involved with growth and immunity. Proteomic tools will be developed to characterize biochemical pathways that underlie growth and immunity in yellow perch. Lastly, in vitro methods will be used to characterize how viral proteins impact cellular antiviral recognition and response pathways that impact how yellow perch combat VHS infection, and how the virus might evade or suppress immune pathways in this species. For objective 3, we will evaluate and test use of larval specialty micro-diets (SMD) as substitutes for live-prey diets to improve larval survival and standardize and reduce overall costs of producing high-quality yellow perch fingerlings. We will evaluate performance measures (first-feeding, swim bladder inflation, development, survival and growth) of genetically defined larval perch broodstock progeny that are reared under either a control live-diet regimen (typical for industry) or a dietary regimen where live prey is progressively substituted with SMD. For objective 4, we will utilize a standardized VHS challenge model to characterize the disease process and susceptibility of perch broodstocks to VHS infection. We will also develop new diagnostic tools to detect VHS and use these detection tools to evaluate how vaccines and vaccination strategies increase protective immunity against VHS infection. For the challenge assay, genetically defined perch will be exposed to varying doses of VHS virus, and survivors will be re-infected with VHS to characterize resistance and protective immunity to this pathogen. To detect this pathogen, we will develop and validate a novel polymerase chain reaction (PCR) assay that reliably speeds up VHS detection in a cost-effective manner. For vaccination and vaccination strategies, we will characterize protective immunity in perch, evaluating the efficacy and duration of existing and new vaccines for VHS and how new and existing adjuvants extend the efficacy of these vaccines.