A facile enzyme-assisted multiple recycling amplification strategy for ultrasensitive fluorescence detection of HIV-1 DNA

Abstract

We developed an enzyme-assisted multiple signal amplification reaction for target nucleic acid detection. In this strategy, the target nucleic acid as triggers, and in the presence of two specific primers, DNA polymerase and DNA nicking endonuclease act in concert to promote the repetitive cycle DNA replication process, leading to an exponential increase in nucleic acid sequence. Both ends of each sequence of the amplification products and the specific primer could from a unit of Mg2+-DNAzyme which in the presence of cofactor Mg2+ could recognize and cyclically cleave the hairpin probes in the solution and thus realize real-time fluorescence detection of HIV-1 DNA. Under optimal conditions, the detection limit of this method is 10−17 M. The simple in design, isothermal conditions and easy fluorescence measurement of this method exhibits superior sensitivity and specificity, and thus holds great potential to be a promising assay for quantitative detection of DNA or RNA in theoretical and clinic studies.