Amplified detection of nucleic acid by G-quadruplex based hybridization chain reaction

A protein-free, isothermal, self-amplified nucleic acid sensing system which was a G-quadruplex integrated hybridization chain reaction (GQ-HCR) system was developed. The G-quadruplex was closed two-thirds in the loop and one-third in the stem of one of the GQ-HCR hairpin probes. In the absence of the target molecule, the GQ-HCR probes stayed as inactive meta-stable hairpin structures and the G-quadruplex was inert. Reversely, the GQ-HCR probes could be cross-opened to start a hybridization chain reaction and the closed G-quadruplex could be released to be free when the GQ-HCR probes came across the target molecule. The GQ-HCR nucleic acid sensing system could detect as low as 7.5 nM ssDNA or RNA by the colorimetric method and 4 nM ssDNA by the fluorometric method. Less than 10 copies of dsDNA template could also be detected when PCR was combined with the GQ-HCR system (PCR+GQ-HCR). Because of these advantages, the GQ-HCR system was also studied for application in visual chip detection to obtain a satisfactory repeatable and specific result.

► Protein-free, isothermal, self-amplified nucleic acid sensing system GQ-HCR via the integration of intact G-Quadruplex and HCR for the colorimetric or fluorimetric detection of single-stranded DNA or RNA. ► In order to detect double stranded DNA and get much better detection sensitivity, we improved the detection system further through the combination of PCR with GQ-HCR. ► GQ-HCR system is an ideal platform to develop visual-chip based nucleic acid detection.