Letter abstract
Nature Materials 4, 826 - 831 (2005)
doi:10.1038/nmat1508
Subject Categories: Biomedical materials | Optical, photonic and optoelectronic materials | Sensors and biosensors | Nanoscale materials
Single-quantum-dot-based DNA nanosensor
Chun-Yang Zhang, Hsin-Chih Yeh, Marcos T. Kuroki and Tza-Huei Wang
Rapid and highly sensitive detection of DNA is critical in diagnosing genetic diseases. Conventional approaches often rely on cumbersome, semi-quantitative amplification of target DNA to improve detection sensitivity. In addition, most DNA detection systems (microarrays, for example), regardless of their need for target amplification, require separation of unhybridized DNA strands from hybridized stands immobilized on a solid substrate, and are thereby complicated by solution–surface binding kinetics1, 2. Here, we report an ultrasensitive nanosensor based on fluorescence resonance energy transfer (FRET) capable of detecting low concentrations of DNA in a separation-free format. This system uses quantum dots (QDs)3, 4, 5 linked to DNA probes to capture DNA targets. The target strand binds to a dye-labelled reporter strand thus forming a FRET donor–acceptor ensemble. The QD also functions as a concentrator that amplifies the target signal by confining several targets in a nanoscale domain. Unbound nanosensors produce near-zero background fluorescence, but on binding to even a small amount of target DNA (
50 copies or less) they generate a very distinct FRET signal. A nanosensor-based oligonucleotide ligation assay has been demonstrated to successfully detect a point mutation6 typical of some ovarian tumours in clinical samples.
- Mechanical Engineering Department and Whitaker Biomedical Engineering Institute, The Johns Hopkins University, Baltimore, Maryland 21218, USA
Correspondence to: Tza-Huei Wang e-mail: thwang@jhu.edu
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