Virulence and Antibiotic Resistance of Pathogenic from Diseased .

In recent years, viral and bacterial diseases have posed serious challenges to the sustainable development of (giant freshwater prawn) aquaculture, resulting in considerable economic losses across China. Among the bacterial pathogens, has emerged as a notable opportunistic agent capable of causing large-scale mortality in various aquatic species. In this study, a highly virulent strain of (designated GMRS4) was isolated from diseased exhibiting mass mortality in Yangzhou, Jiangsu Province. The isolate, a Gram-negative bacillus, was identified as the causative agent based on morphological, molecular, and histopathological analyses. Pathogenicity was confirmed through experimental infection, with the strain displaying marked virulence, evidenced by an LD of 1.91 × 10 CFU/mL at 96 h. Whole-genome sequencing of GMRS4 revealed 4078 coding sequences, including a suite of virulence-associated genes encoding extracellular enzymes (DNase, hemolysin, caseinase, and lecithinase) and toxins (serine protease, elastase, and flagellin). Antimicrobial susceptibility testing indicated resistance to several antibiotics, particularly those in the penicillin and sulfonamide classes, while maintaining sensitivity to quinolones. Genomic analysis further revealed multiple antibiotic resistance genes and virulence genes, offering insights into the pathogenic mechanisms and resistance profile of the strain. This study underscores the threat posed by to freshwater prawn aquaculture and provides a genetic basis for developing targeted disease management strategies.