Aeromonas veronii specific aptamer and peroxidase mimic tyrosine-capped gold NanoZymes enable highly specific sensing of fish pathogenic bacteria

Despite major advances in biosensing, quick, dependable, and effective on-site detection of bacterial infections remains a serious issue, owing to a lack of acceptable or appropriate diagnostic platforms. To address this gap, we presented a new colorimetric gold NanoZyme aptasensor for rapid sensing of Aeromonas veronii, an infectious bacterial disease in fish. The A. veronii-specific aptamer (AVS01) was developed through Cell-SELEX. The sensing mechanism involves inhibition of AuNPs induced peroxidase-mimic catalytic activity through surface adsorption by AVS01 which in the presence of the A. veronii desorb from the AuNPs allowing recovery of the catalytic activity leading to colorimetric response, whereas the sensor is insesnsitive to other nontarget bacterial cells. This method is very specific and sensitive, allowing for the quick and visible sensing of A. veronii with a detection limit of 1281 CFU mL−1 within 15 min. The method has great potential for rapid diagnosis of bacterial infection in fish caused by A. veronii. [Display omitted] •Peroxidase mimic catalytic activity offered by tyrosine-capped gold nanoparticles (AuNPs).•DNA aptamer through SELEX showed high specificity towards A. veronii.•Dynamic interaction of specific aptamer with AuNPs allows aptasensing of A. veronii.•Developed aptasensing showed A. veronii detection limit of 1281 CFU mL−1