Development of single nucleotide polymorphism (SNP) application for detection and genotyping of RSIV-type megalocytiviruses.

Abstract

Red sea bream iridovirus (RSIV) belonging to the genus Megalocytivirus of the family Iridoviridae is the cause of serious mass mortality of cultured marine fishes. RSIV-type megalocytiviruses show extremely high nucleotide sequence identities. Thus, epidemiological studies on this virus are limited. This study developed two primer sets amplifying the regions possessing single nucleotide polymorphism (SNP) to determine the relationships and divergence of RSIV-type megalocytiviruses isolated from cultured marine fishes in Japan. The two regions were designed according to the genome sequences of the representative RSIV genotype II of megalocytivirus members in GenBank. The SNP 1 and 2 regions have sequences homologous to hypothetical protein ORF 24 and ORF 31, respectively, of RSIV (accession no. AP017456.1). By sequencing the regions, 53 polymorphic sites were identified. The phylogenetic analysis of 25 RSIV-type megalocytivirus isolates, classified into RSIV cluster, was clustered into eight haplotypes (seven haplotypes from Oita, two haplotypes from Ehime, and one haplotype shared between Oita and Ehime). These findings suggested that SNP in the RSIV genome is a powerful application for the detection and identification of RSIV-type megalocytiviruses.