Abstract

Sensitive detection of uracil-DNA glycosylase (UDG) activity is very important in the study of many fundamental biochemical processes and clinical applications. Here, we develop a novel assay for the detection of UDG activity by using the self-initiating multiple rolling circle amplification (SM-RCA) strategy. We first design a trigger probe modified with NH2 at its 3′-terminal and uracil base in the middle of sequence, which is complementary to a cyclized padlock probe. In the presence of UDG, a uracil base can be excised by UDG to generate an apurinic/apyrimidinic (AP) site. The AP site is recognized and cleaved by endonuclease IV (Endo IV), releasing the primer with 3′-OH. The primer can trigger the rolling circle amplification (RCA) reaction, producing a long and repeated DNA strand embedded some uracil bases. These uracil bases can be cleaved by UDG and Endo IV again, and then, more primers are generated to initiate SM-RCA reaction, producing large amounts of DNA product. Afterward, the DNA product is measured by a specific DNA fluorescence dye for quantitative detection of UDG activity. The linear range of the method is 5 × 10–5 to 1.25 × 10–3 U/mL, and the detection limit is 1.7 × 10–5 U/mL. This method not only utilizes the target UDG itself to trigger RCA but also further induces SM-RCA reaction, providing a simple, sensitive, and cost-effective strategy for the detection of glycosylase and clinical diagnosis.

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