Project description:Salmon pancreas disease, caused by salmonid alphavirus (SAV), is an economically important disease affecting farmed Atlantic salmon (Salmo salar L.) in Europe, with outbreaks reported in Scotland, Norway, and Ireland. A microarray-based study was performed to evaluate the host transcriptomic response during the early stages of an experimentally induced salmonid alphavirus 1 (SAV 1) infection in Atlantic salmon (Salmo salar L.) Head kidney was sampled from five fish PD infected Atlantic salmon parr and uninfected controls on days 1, 3 and 5 post injection (d.p.i). RNA from tissue samples was amplified and interrogated using the 17k TRAITS / SGP cDNA microarray, with results validated by SYBR green real-time PCR. The greatest number of significantly differentially expressed genes was recorded on day 3 p.i. These were found to be mainly associated with immune and defence mechanisms including genes involved in interferon I & II pathways and major histocompatibility complex class I & II responses. The expression of genes associated with apoptosis (BcL2 and caspase 3/7) and cellular stress (heat shock protein) were also found to differ significantly between infected and uninfected individuals as were genes involved in inhibiting viral attachment and replication, such as ubiquitin, serum myeloid, and and viperin.
Project description:Comparison of two single cell transcriptomic approaches to investigate cellular heterogeneity within the head kidney of healthy farmed Atlantic salmon (Salmo salar)
2024-01-12 | GSE253087 | GEO
Project description:Cataglyphis bombycina transcriptomic response to heat-stress
Project description:ISAV is one of the most dangerous pathogens causing high mortality of farmed Atlantic salmon. In this study, transcriptome responses to the virus were examined in vitro in Atlantic salmon head kidney cells culture (ASK). Poly(I:C), synthetic double-stranded RNA stimulating antiviral responses was used as a positive control.
Project description:Due to multi-generation domestication selection, farmed and wild Atlantic salmon diverge genetically, which raises concerns about potential genetic interactions among escaped farmed and wild populations and disrupts local adaptation through introgression. When farmed strains of distant geographic origin are used, it is unknown whether the genetic risks posed by escaped farmed fish will be greater than if more locally derived strains are used. Quantifying gene expression differences among divergent farmed, wild and F1 hybrids under controlled conditions is one of the ways to explore the consequences of hybridization. We compared the transcriptomes of late sac fry of a European (EO) farmed (“StofnFiskur”, Norwegian strain), a North American (NA) farmed (Saint John River, NB strain), a Newfoundland (NF) wild population with EO ancestry, and related F1 hybrids using 44K microarrays. Our findings indicate that the wild population showed greater transcriptome differences from the EO farmed strain than that of the NA farmed strain. We also found the largest differences in global gene expression between the two farmed strains. We detected fewer differentially expressed transcripts between F1 hybrids and domesticated/wild maternal strains. We also found that the differentially expressed genes between cross types over-represented GO terms associated with metabolism, development, growth, immune response, and redox homeostasis processes. These findings suggest that the interbreeding of escaped EO/NA farmed and NF wild population would alter gene transcription, and the consequences of hybridization would be greater from escaped EO farmed than NA farmed salmon, resulting in potential effects on the fitness of wild populations.