Abstract

We have developed a novel sensitive chemiluminescence (CL) aptasensor for the target assay as exemplified by using adenosine as a model target. In this work, we have demonstrated the signaling mechanism to make detection based on magnetic separation and 3,4,5-trimethoxyl-phenylglyoxal (TMPG), a special CL reagent as the signaling molecule, which reacts instantaneously with guanine nucleobases (G) of adenosine-binding aptamer strands. Briefly, amino-functioned capture DNA sequences are immobilized on the surface of carboxyl-modified magnetic beads, and then hybridized with label-free G-rich (including 15 guanine nucleobases) adenosine-binding aptamer strands to form our CL aptasensor. Upon the introduction of adenosine, the aptamer on the surface of magnetic beads is triggered to make structure switching to the formation of the adenosine/aptamer complex. Consequently, G-rich aptamer strands are forced to dissociate from magnetic beads sensing interface, resulting in a decrease of CL signal. The decrement of peak signal is proportional to the amount of adenosine. The effects of the amounts of capture DNA, aptamer, magnetic beads are investigated and optimized. It was found that the CL intensity had a linear dependency on the concentration of adenosine in the range of 4 × 10 −7 to 1 × 10 −5 M. With a low detection limit of 8 × 10 −8 M and simplicity in CL detection, this novel technique will offer a great promise for future target/aptamer analysis.

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