Near-Infrared Dye-Aptamer Assay for Small Molecule Detection in Complex Specimens

Aptamers are single-stranded oligonucleotides isolated in vitro that bind specific targets with high affinity and are commonly used as receptors in biosensors. Aptamer-based dye-displacement assays are a promising sensing platform because they are label-free, sensitive, simple, and rapid. However, these assays can exhibit impaired sensitivity in biospecimens, which contain numerous interferents that cause unwanted absorbance, scattering, and fluorescence in the UV–vis region. Here, this problem is overcome by utilizing near-infrared (NIR) signatures of the dye 3,3′-diethylthiadicarbocyanine iodide (Cy5). Cy5 initially complexes with aptamers as monomers and dimers; aptamer-target binding displaces the dye into solution, resulting in the formation of J-aggregates that provide a detectable NIR signal. The generality of our assay is demonstrated by detecting three different small-molecule analytes with their respective DNA aptamers at clinically relevant concentrations in serum and urine. These successful demonstrations show the utility of dye-aptamer NIR biosensors for high-throughput detection of analytes in clinical specimens.