Immunoassay of Small Molecule Mediated by a Triply Functional DNA

Benefiting from specific target recognition by antibodies, the immunoassay is one of the widely used assays for the detection of biologically and environmentally important small molecules in broad fields. It can be challenge to isolate small molecules from their antibody complex in an immobilization-free immunoassay with separation for the detection of small-molecule targets. Here we present an immunoassay mediated by a triply functional DNA probe. A DNA strand is dually labeled with a fluorophore and the target small molecule. This DNA probe integrates three functions, including specific binding to the antibody, signal reporting for sensitive fluorescence detection, and carrying negative charges to facilitate capillary electrophoresis (CE) separation. The binding of the probe to an antibody brings many negative charges in the complex and causes significant changes in mass-to-charge ratios, so the antibody-probe complex can be well separated from the unbound probe in CE analysis. A simple immunoassay is achieved by target competition with this DNA probe for antibody binding in CE coupled to ultrasensitive laser-induced fluorescence (LIF) detection. To show a proof of concept, we detected two model small-molecule targets, digoxin, a therapeutic drug, and ochratoxin A (OTA), an important mycotoxin for food safety. In addition, the use of two DNA probes with distinguished migration times in CE allowed the simultaneous detection of OTA and digoxin. This immunoassay provides new opportunities for wide applications.

Automated summary

This study presents an immunoassay mediated by a triply functional DNA probe for detecting small-molecule targets. The method allows for the separation of antibody-probe complexes using capillary electrophoresis (CE) and achieves simple and highly sensitive detection. The approach was demonstrated to simultaneously detect two model small-molecule targets, showing potential for wide applications.