Full-genome sequence of a novel myovirus, GF-2, infecting Edwardsiella tarda: comparison with other Edwardsiella myoviral genomes

Edwardsiellosis, which is caused by Edwardsiella tarda, a Gram-negative bacterium, is one of the most serious infectious diseases in both marine and freshwater fish farms worldwide. Previously, we reported the complete genome sequences of three E. tarda-lytic bacteriophages (two podoviruses and a myovirus), which were isolated from fish tissues and fish-rearing seawater. Further genomic information regarding E. tarda phages is important for understanding phage-host interactions as well as for applications of the phages for the control of disease. Here, we report the complete genome sequence of a novel E. tarda phage (GF-2) of myovirus morphology (family Myoviridae), isolated from tissue homogenates of a cultured Japanese flounder (Paralichthys olivaceus) that succumbed to edwardsiellosis in Japan. The size of the entire genome was 43,129 bp, with a GC content of 51.3 % and containing 82 open reading frames (ORFs). The GF-2 genome possesses lysogeny-related genes that have not been found in the reported Edwardsiella phage genomes. Comparative genomics of Edwardsiella myophages suggest that the C-terminal domains of the tail fiber proteins have relevance to their host specificity. Thus, GF-2 genome information provides a novel resource for our understanding of the molecular mechanisms involved in their host specificity and for detection of E. tarda in aquaculture environments.