A strategy for detecting CSFV using DNAzyme-HCR cascade amplification

Abstract

The Hybridization Chain Reaction (HCR) is an isothermal amplification technique widely used for sensing nucleic acids and small molecules. Despite its effectiveness, conventional linear HCR exhibits relatively slow kinetics and insufficient sensitivity. To address this challenge, we have innovatively combined HCR with DNAzyme technology to enhance nucleic acid detection. In this novel approach, the presence of a target molecule triggers the formation of DNAzyme, leading to the cleavage of substrate S, the initiation of HCR, and the production of DNA nanowires and labeled DNAzyme. The newly generated DNAzyme continuously cleaves substrate S, promoting sequential HCR amplification and significantly enhancing the fluorescence signal. This system offers a simple, sensitive, selective, and versatile method for nucleic acid detection, with a detection limit as low as 5 pM. When tested on classical swine fever virus (CSFV) samples, the system demonstrated detection accuracy comparable to RT-qPCR and exhibited superior repeatability.