Abstract

We present a novel assay for rapid and highly sensitive detection of specific nucleic acid fragments in human serum. In a magnetic modulation biosensing (MMB) system, magnetic beads and fluorescently labeled probes are attached to the target analyte and form a "sandwich" complex. An alternating external magnetic field gradient condenses the magnetic beads (and hence the target molecules with the fluorescently labeled probes) to the detection volume and sets them in a periodic motion, in and out of a laser beam. A synchronous detection enables the removal of background signal from the oscillating target signal without complicated sample preparation. The high sensitivity of the MMB system, combined with the specificity of a sandwich hybridization assay, enables detection of DNA fragments without enzymatic signal amplification. Here, we demonstrate the sensitivity of the assay by directly detecting the EML4-ALK oncogenic translocation sequence spiked in human serum. The calculated limit of detection is 1.4 pM, which is approximately 150 times better than a conventional plate reader. In general, the MMB-assisted SHA can be implemented in many other applications for which enzymatic amplification, such as PCR, is not applicable and where rapid detection of specific nucleic acid targets is required.

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