The bacterial ghost (BG) system is a novel vaccine delivery system endowed with intrinsic adjuvant properties. Bacterial ghosts are nonliving Gram-negative bacterial cell envelopes devoid of cytoplasmic contents while maintaining their cellular morphology and native surface antigenic structures. They are produced by PhiX174 protein E-mediated lysis of Gram-negative bacteria, and can induce humoral and cellular immune response, including mucosal immune responses. Plasmid pElysis consisting E gene was transformed into AhJ-1. Through shifting the culture temperature from 28℃ to 42℃, A. hydrophila J-1 (pElysis) was induced to lyse and the OD600 value of culture media was measured every 15 minutes during the induction. The lysed bacteria were observed by scanning electron microscopy (SEM). The A. hydrophila ghosts (AHG) used as oral vaccine were also investigated. The OD600 value of A. hydrophila J-1(pElysis) began to decline after 30min of induction, and after 75min of induction, the OD600 value decline speed become slowly. The efficiency of ghost induction in non-lyophilized A.hydrophila was 99.99%, 16 hours post induced, no live bacteria can be detected in culture. Scanning electron microscopy observation proved that most lysed bacteria were emptied. Fish vaccination experiments shows that the antibody evoked highest degree after 5 weeks by oral administration of bacterial ghost vaccine and the agglutination antibody titer reached 27 and continued two weeks, while the agglutination antibody titer of formalin killed vaccine only reached 26 and only maintained one week. After challenged with the parent strain J-1, the survival rate of bacterial ghost vaccinated fish was higher than the control group and formalin killed vac-cine group, the relative percent survival (RPS) was 78.95% (16/20), but the RPS of formalin killed vaccine group was 57.9% (12/20). This suggests that the bacterial ghost vaccine has higher potential to induce protective adaptive immu-nity than normal vaccine.