ABSTRACT
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.
Subject(s)
Fish Proteins/metabolism , Host-Pathogen Interactions , Immune Evasion , Isavirus/physiology , RNA-Binding Proteins/metabolism , Salmon , Viral Nonstructural Proteins/metabolism , Animals , Isavirus/immunology , Protein Binding , RNA InterferenceABSTRACT
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.