Abstract

AbstractThe aro genes in bacteria encode enzymes needed for the biosynthesis of aromatic amino acids, and mutant bacteria that are defective in the enzymes can replicate only a limited number in vertebrates owing to the lack or scarceness of chorismate, through which the mutant bacteria of the aro genes become attenuated. In the present study, the 5‐enolpyruvylshikimate‐3‐phosphate synthase (aroA) gene‐knockout Vibrio anguillarum (ΔaroA V. anguillarum) were generated by the allelic exchange method, and its vaccine potential was evaluated in the olive flounder, Paralichthys olivaceus, by comparing the protective efficacy of a formalin‐inactivated V. anguillarum. The LD50 (50% lethal dose) value of ΔaroA V. anguillarum was 1000 times higher than that of wild‐type V. anguillarum in olive flounder fingerlings, and the growth of ΔaroA V. anguillarum was significantly suppressed by coincubation with nonimmune olive flounder serum compared with that of wild‐type V. anguillarum. The survival rates and serum agglutination titers of fish immunized with ΔaroA V. anguillarum were significantly higher than those of fish immunized with the same amount of formalin‐inactivated V. anguillarum, suggesting that although the inactivated V. anguillarum vaccine can provide a high protection in olive flounder, the protective efficacy can be enhanced by immunization with an auxotrophic mutant ΔaroA V. anguillarum.

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