Target recognition-initiated allosteric probe-based multiple signal amplification strategy for sensitive and direct Pseudomonas aeruginosa detection

Abstract Pseudomonas aeruginosa (P. aeruginosa), a kind of gram-negative pathogenic bacteria, are causative agents of severe infections, such as lower respiratory tract infections in children and cancers. Detecting low levels of P. aeruginosa in clinical samples in an easy-to-operate manner is highly desired but still poses a problem. Herein, we established a target recognition-initiated allosteric probe-based multiple signal amplification strategy for sensitive detection of P. aeruginosa in a wash-free way. This approach involves the allosteric probe’s accurate recognition and binding to target P. aeruginosa, leading to subsequent multiple-cycle amplification. Afterward, the amplified products were translated to induce the aggregation of gold nanoparticles (AuNPs), resulting in color variations. The utilization of the allosteric probe, which is integrated with the aptamer sequences, enables wash-free detection of P. aeruginosa. Taking the merit of multiple signal amplification process, the suggested method showed a strong linear response to the extracted P. aeruginosa within a concentration range of 10–105 cfu/mL, with a low limit of detection for individual P. aeruginosa detection. The proposed technique has considerable clinical promise for early disease diagnosis because to its high sensitivity and wash-free simplicity.