Development and application of a whole genome amplicon sequencing method for infectious salmon anemia virus (ISAV).

Infectious salmon anemia (ISA) is an infectious disease primarily affecting farmed Atlantic salmon, Salmo salar, which is caused by the ISA virus (ISAV). ISAV belongs to the Orthomyxoviridae family. The disease is a serious condition resulting in reduced fish welfare and high mortality. In this study, we designed an amplicon-based sequencing protocol for whole genome sequencing of ISAV. The method consists of 80 ISAV-specific primers that cover 92% of the virus genome and was designed to be used on an Illumina MiSeq platform. The sequencing accuracy was investigated by comparing sequences with previously published Sanger sequences. The sequences obtained were nearly identical to those obtained by Sanger sequencing, thus demonstrating that sequences produced by this amplicon sequencing protocol had an acceptable accuracy. The amplicon-based sequencing method was used to obtain the whole genome sequence of 12 different ISAV isolates from a small local epidemic in the northern part of Norway. Analysis of the whole genome sequences revealed that segment reassortment took place between some of the isolates and could identify which segments that had been reassorted.

Validation of a TaqMan one-step real-time RT-PCR assay targeting ISAV segment 7 spliced mRNA.

Infectious salmon anaemia virus (ISAV) can cause severe systemic infection in Atlantic salmon (Salmo salar L.), and a timely diagnosis is critical. Conventional real-time reverse transcription PCR (RT-qPCR) assays target unspliced RNA from either ISAV segment 7 or 8 and provide data on viral load. Here, we evaluate a TaqMan one-step RT-qPCR assay that detects explicitly a spliced messenger RNA (mRNA) of ISAV segment 7, thus providing evidence of active viral transcription. Assay performance was comparable with existing unspliced segment 7 and segment 8 assays. PCR efficiency as evaluated from dilutions of a synthetic DNA fragment was 98 % (R2 = 1.00). The assay also performed well on clinical heart samples with PCR efficiency of 108 % (R2 = 1.00). Finally, evaluation on kidney samples from experimental infection revealed higher levels of active transcription for high-virulent compared to low-virulent ISAV. At early, peak, and late infection, mean ratios of spliced to unspliced segment 7 RNA were 3.0 % (± 0.7), 1.7 % (± 0.3), and 1.5 % (± 0.1) for the low virulent and 9.4 % (± 2.2), 4.7 % (± 0.8), and 6.2 % (± 0.1) for the high virulent isolate, respectively. By detection and quantification of active ISAV transcription, this assay may provide a more detailed understanding of ISAV infection dynamics.

Clinical characteristics of the Omicron variant - results from a Nationwide Symptoms Survey in the Faroe Islands.

OBJECTIVES: Omicron appears to lead to a milder illness for patients compared with previous COVID-19 variants. However, not all infected with Omicron would describe their illness as mild. In this study, we investigate the experienced severity and symptoms of the Omicron variant. METHODS: We conducted a nationwide cross-sectional study, including 5036 individuals of all ages, consisting of reverse transcription-polymerase chain reaction confirmed SARS-CoV-2 cases from 1 January to 31 January 2022 (n = 4506) and a control group without SARS-COV-2 infection in December 2021 or January 2022 (n = 530). Omicron was dominant during this period. Cases were asked about their acute symptoms and answered a web-based questionnaire 10-30 days after their positive test while controls were asked about symptoms during the past week. RESULTS: Among cases, 97% reported at least one symptom during the acute phase compared with 79% of controls. Just over half the cases assessed their illness as asymptomatic or mild, whereas 46% assessed their illness as moderate or severe. Children reported fewer symptoms and less severe illnesses than adults (P <0.001). The largest risk differences (RDs) between adult cases and controls due to symptoms were observed for fever (RD = 60.6%, confidence interval [CI] 57.4-63.6), fatigue (RD = 49.6%, CI 44.1-54.7), and chills (RD = 48.8%, CI 43.8-53.2). CONCLUSION: Most of those infected with Omicron experience symptoms, and the Omicron variant appears to lead to less severe disease. However, this does not mean that all the infected experience an Omicron infection as mild. The unprecedented rate of Omicron infections worldwide leads to urgent questions about the rate of long COVID after Omicron infections.

No Evidence of the Vertical Transmission of Non-Virulent Infectious Salmon Anaemia Virus (ISAV-HPR0) in Farmed Atlantic Salmon.

The nonvirulent infectious salmon anaemia virus (ISAV-HPR0) is the putative progenitor for virulent-ISAV, and a potential risk factor for the development of infectious salmon anaemia (ISA). Understanding the transmission dynamics of ISAV-HPR0 is fundamental to proper management and mitigation strategies. Here, we demonstrate that ISAV-HPR0 causes prevalent and transient infections in all three production stages of Atlantic salmon in the Faroe Islands. Phylogenetic analysis of the haemagglutinin-esterase gene from 247 salmon showed a clear geographical structuring into two significantly distinct HPR0-subgroups, which were designated G2 and G4. Whereas G2 and G4 co-circulated in marine farms, Faroese broodfish were predominantly infected by G2, and smolt were predominantly infected by G4. This infection pattern was confirmed by our G2- and G4-specific RT-qPCR assays. Moreover, the HPR0 variants detected in Icelandic and Norwegian broodfish were never detected in the Faroe Islands, despite the extensive import of ova from both countries. Accordingly, the vertical transmission of HPR0 from broodfish to progeny is uncommon. Phylogenetic and statistical analysis suggest that HPR0 persists in the smolt farms as "house-strains", and that new HPR0 variants are occasionally introduced from the marine environment, probably by HPR0-contaminated sea-spray. Thus, high biosecurity-including water and air intake-is required to avoid the introduction of pathogens to the smolt farms.