The nucleotide sequences of a specific region of the nucleoprotein gene were compared in order to investigate the genetic population structure of marine viral haemorrhagic septicaemia virus (VHSV). Analysis of the sequence from 128 isolates of diverse geographic and host origin renders this the most comprehensive molecular epidemiological study of marine VHSV conducted to date. Phylogenetic analysis of nucleoprotein gene sequences confirmed the existence of the 4 major genotypes previously identified based on N-and subsequent G-gene based analyses. The range of Genotype I included subgroups of isolates associated with rainbow trout aquaculture (Genotype Ia) and those from the Baltic marine environment (Genotype Ib) to emphasise the relatively close genetic relationship between these isolates. The existence of an additional genotype circulating within the Baltic Sea (Genotype II) was also confirmed. Genotype III included marine isolates from around the British Isles in addition to those associated with turbot mariculture, highlighting a continued risk to the development of this industry. Genotype IV consisted of isolates from the marine environment in North America. Taken together, these findings suggest a marine origin of VHSV in rainbow trout aquaculture. The implications of these findings with respect to the future control of VHSV are discussed. The capacity for molecular phylogenetic analysis to resolve complex epidemiological problems is also demonstrated and its likely future importance to disease management issues highlighted.
The ribosomal internal transcribed spacer (ITS) region from individual Gyrodactylus specimens was amplified by polymerase chain reaction (PCR). The reaction amplified the entire ITS1-5.8S-ITS2 region of the ribosomal RNA gene cluster using primers that hybridize to the 3' terminus of the small subunit and the 5' terminus of the large subunit ribosomal RNA genes. The PCR products from Gyrodactylus salaris and Gyrodactylus thymalli were cloned and sequenced. The Gyrodactylus 5.8S gene was identified following comparative alignment of the G. salaris sequence and a Schistosoma 5.8S gene sequence. The ITS regions from G. salaris, G. thymalli, Gyrodactylus derjavini, and Gyrodactylus truttae were compared by restriction enzyme analysis and interspecific restriction fragment length polymorphisms were found. Gyrodactylus salaris and G. thymalli restriction fragment sizes were confirmed from sequence data. ITS amplification followed by Sau3AI digestion enables rapid and clear differentiation of G. salaris, G. derjavini, and G. truttae.
The genomic segment encoding the putative hemagglutinin of infectious salmon anemia virus (ISAV) is described. Expression of the putative hemagglutinin in a salmon cell line demonstrated hemadsorptive properties of the protein for salmon erythrocytes. The polypeptide was recognized by an ISAV-specific monoclonal antibody. Nucleotide sequencing indicated the occurrence of a variable region in the hemagglutinin gene.
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