An ultrasensitive terminal protection-based real-time fluorescence approach for protein detection via an isothermal exponential amplification reaction

Abstract

In this assay, based on the terminal protection of small-molecule-linked DNA, a new ultrasensitive real-time fluorescence strategy combined with an isothermal exponential amplification reaction (IEXPAR) has been established for protein assay. By the clever design of DNA, terminal protection is combined with efficient IEXPAR. The target protein explicitly binds to small molecules attached to the template DNA, protecting the template DNA from exonuclease I (Exo I) degradation. The added DNA primer hybridizes with the protected template DNA and triggers the following IEXPAR. IEXPAR has a super amplification efficiency of 10⁶–10⁹ times. The IEXPAR yields numerous double-stranded DNA (dsDNA) molecules. The fluorescence dye SYBR Green I (SG), which is sensitive to dsDNA, is used to determine the real-time fluorescence of the IEXPAR. Conversely, without the target protein, the template DNA is hydrolyzed by Exo I, failing to trigger the IEXPAR. The intriguing combination of IEXPAR and terminal protection realizes the ultrasensitive detection of protein. As low as 100 fmol L⁻¹ SA and 200 pg mL⁻¹ folic acid (FR) are accurately detected.