High-density aptamer synthesis based on primer exchange reaction for label-free electrochemical biosensing

Abstract

We report an electrochemical aptamer-based (E-AB) sensor for label-free quantitative detection of thrombin. In-situ synthesis of high-density aptamer replicas on the electrode is accomplished based on primer exchange reaction (PER), by which a DNA primer is continuously extended with the presence of a catalytic hairpin template and DNA polymerase. The PER enables the synthesis of long single-stranded DNA with replicated aptamer sequence for thrombin binding. The PER products on the surface of a gold electrode increase the density of aptamers on a limited electrode area, which can provide more effective binding sites for thrombin and therefore improve the performance of the sensor based on electrochemical impedance spectroscopy. Compared with the conventional E-AB sensor based on a 15-mer aptamer immobilized on the electrode, our method has a lower detection limit of 0.91 pM, and a wider linear range of 1.0 pM to 50 nM. Therefore, we believe our method is promising for label-free electrochemical detection of biomarkers.