Aims: To identify and characterize bacteriophages specific for Edwardsiella ictaluri, the causative agent for enteric septicemia of catfish (ESC).
Methods and Results: Two bacteriophages were isolated that infect Edw. ictaluri. They both produce clear plaques, have icosahedral heads with a non‐rigid tail, and are tentatively classified as Siphoviridae. Phages ΦeiDWF and ΦeiAU are dsDNA viruses with approximate genome sizes of 40 and 45 kb, respectively. The addition of 500 μmol l−1 CaCl2 enhanced phage titres. Both phages have a latent period of 40 min and an estimated burst size of 270. Every Edw. ictaluri strain tested was susceptible to phage infection with variable plaquing efficiencies and with no evidence of lysogeny, with no plaques detected on other bacterial species.
Conclusions: Two unique bacteriophages were isolated that show host‐specificity for Edw. ictaluri, have temperature and metal cation‐dependent infectivity, and are tentatively placed within the family Siphoviridae.
Significance and Impact of the Study: This is the first report of bacteriophages specific to Edw. ictaluri, an important fish pathogen affecting farm‐raised channel catfish. Initial characterization of these bacteriophages has demonstrated their potential use as biotherapeutic and diagnostic agents associated with ESC.
This study was conducted to isolate and characterize Edwardsiella tarda (E. tarda) and assess its antimicrobial susceptibility. The bacterium was isolated in Wakiso District, Uganda, from symptomatic and asymptomatic Nile tilapia and African catfish raised in earthen ponds, tanks and cages between September 2016 and February 2017. The bacterium was then identified using conventional biochemical tests and API 20E test kits and characterized by sequencing 16S rRNA gene. The antibiotic susceptibility of 16 drugs was established using the Kirby BeurDisc diffusion method. Eight E. tarda isolates were identified using conventional biochemical tests but only one isolate was confirmed to be E. tarda by PCR. Phylogenetic analysis indicated a distant relationship with other 16S rRNA gene sequences retrieved from the GenBank. Six virulence genes (CitC, muk, gadB, katB, esaV, and fimA) that enhance bacterial survival and pathogenesis in the host were detected. The isolate registered low levels of antibiotic resistance as it was resistant only to Oxacillin, Vancomycin and Penicillin, to which it is intrinsically resistant. This implies low antibiotic usage in aquaculture in the area. Despite its low occurrence, presence of virulent genes in E. tarda indicates its potential to affect fish and human health.
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