s8ORF2 protein of infectious salmon anaemia virus is a RNA-silencing suppressor and interacts with Salmon salar Mov10 (SsMov10) of the host RNAi machinery.

The infectious salmon anaemia virus (ISAV) is a piscine virus, a member of Orthomyxoviridae family. It encodes at least 10 proteins from eight negative-strand RNA segments. Since ISAV belongs to the same virus family as Influenza A virus, with similarities in protein functions, they may hence be characterised by analogy. Like NS1 protein of Influenza A virus, s8ORF2 of ISAV is implicated in interferon antagonism and RNA-binding functions. In this study, we investigated the role of s8ORF2 in RNAi suppression in a well-established Agrobacterium transient suppression assay in stably silenced transgenic Nicotiana xanthi. In addition, s8ORF2 was identified as a novel interactor with SsMov10, a key molecule responsible for RISC assembly and maturation in the RNAi pathway. This study thus sheds light on a novel route undertaken by viral proteins in promoting viral growth, using the host RNAi machinery.

Transcriptional regulation of gene expression of infectious salmon anaemia virus segment 7.

The nuclear replication and gene splicing of orthomyxoviruses are unique among RNA viruses. Segment 7 of infectious salmon anaemia virus (ISAV) is the only segment that undergoes splicing. Two proteins are encoded by this segment, the non-structural antagonist (ISAV-NS) of the innate immune response that is translated from the unspliced collinear transcript, and a nuclear exporting protein (ISAV-NEP) that is translated from the spliced mRNA. Here we report the transcription profiles for these ISAV proteins. The appearance of the spliced ISAV-NEP mRNA was delayed and the relative amount was less but slowly accumulated to 20-30% to that of the collinear NS mRNA. In cells transfected with segment 7 the ratio between spliced and collinear mRNA was approximately 10%. A highly conserved, possible structured RNA, in the region of the 3' splicing site of the segment is speculated as being important for the regulation of the efficiency of the splicing.