Binding induced isothermal amplification reaction to activate CRISPR/Cas12a for amplified electrochemiluminescence detection of rabies viral RNA via DNA nanotweezer structure switching

Rabies is caused by the infection of Rabies virus, it leads to fatal encephalitis, developing a highly sensitive and specific detection method for Rabies virus remains a challenge. Herein, we report an electrochemiluminescence (ECL) biosensor for Rabies viral RNA based on dual-signal amplification and DNA nanotweezers (DTs). Dual -signal amplification process includes target binding induced isothermal amplification and CRISPR-based amplification. In the presence of target RNA, two assisted probes simultaneously hybridized with it to trigger isothermal amplification with the help of polymerase and nicking enzyme. This process generated a large amount of single-stranded DNA (ssDNA) as products. The products hybridized with CRISPR RNA to activate the trans-cleavage activity of Cas12a to indiscriminately cleave predesigned single-stranded trigger (ST) strands. After mixing the cleavage products with DTs and hemin molecules, DTs cannot be closed by cleaved ST strands to capture hemin to the electrode to quench the ECL signal. Therefore, the higher concentration of the target, the stronger intensity of the ECL signal. The detection limit is as low as 2.8 pM and the detection range is from 5 pM to 5 nM with excellent specificity and stability. The proposed method provides a promising strategy for Rabies detection, and can be easily adapted to other analytes via reasonable design as a valuable and versatile tool in bioanalysis.