Abstract

DNA glycosylases can initiate base excision repair pathway to repair endogenous DNA base damages for the maintenance of genome stability. Multiple DNA glycosylases exhibit abnormal in various diseases, and the simultaneous measurement of different DNA glycosylases is critical to clinical diagnosis and drug discovery. Herein, we take advantage of single-molecule detection and bidirectional strand displacement amplification (SDA) to simultaneously detect uracil DNA glycolase (UDG) and human alkyladenine DNA glycosylase (hAAG). We design a partial double-stranded DNA (dsDNA) substrate modified with specific recognition sites of UDG and hAAG. The dsDNA substrate is labeled with BHQ1 and BHQ2 at the 5′-ends and then hybridizes with the Cy3/Cy5-labeled reporter probes to obtain the BHQ1/Cy3 and BHQ2/Cy5 base pairs, resulting in the quenching of Cy3/Cy5 fluorescence by BHQ1/BHQ2 via fluorescence resonance energy transfer (FRET). When UDG and hAAG are present, they can induce the base excision repair reaction and subsequently initiate the bidirectional SDA amplification process, releasing the Cy5/Cy3-labeled reporter probes from the dsDNA substrate and consequently the recovery of Cy5 and Cy3 fluorescence, which can be measured by single-molecule detection, with Cy5 indicating UDG and Cy3 indicating hAAG. This method possesses high sensitivity and good selectivity with the capability of quantifying multiple DNA glycosylases at the single-cell level. Furthermore, it can be used to simultaneously screen DNA glycosylase inhibitors and determine enzyme kinetic parameters, with the potential of sensing various DNA/RNA enzymes by simple changing the recognition sites of DNA substrates.

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