Abstract
Graphene oxide (GO) has proven to be a satisfactory DNA-sensor platform for applications in enzyme-free signal amplification, fluorescence-based amplification, and nanoparticle-based platforms because of its excellent electrical, thermal, and optical properties. In this study, we designed a novel platform for the fluorescence detection of biomolecules, using a fluorescent dye-labeled primer and GO. We applied this system for the detection of the IS6110 insertion sequence of the Mycobacterium tuberculosis complex (MTB) and evaluated its feasibility for use in molecular diagnostics. Fifty-four sputum specimens were collected at our institution from October 2010 to March 2012. To detect MTB in the samples, we performed PCR amplification of the IS6110 DNA sequence using FAM-labeled primers, after which the PCR amplicon was incubated with GO and the fluorescence was measured. The results were compared with those obtained by conventional real-time quantitative PCR (RQ-PCR). The fluorescence intensity observed increased in a concentration-dependent manner with the FAM-labeled IS6110 amplicon. The results of the PCR-GO system for detecting IS6110 DNA were in good agreement with those obtained with conventional RQ-PCR (kappa statistic = 0.925). The PCR-GO system detected MTB DNA in 23 of 25 RQ-PCR-positive sputum samples (92.0%; 95% CI, 75.0–98.0%), but not in 29 of 29 RQ-PCR-negative sputum samples (100%; 95% CI, 88.1–100.0%). These results indicate the utility of the PCR-GO system in molecular diagnostics.
Highlights
Graphene is a one-atom-thick planar sheet of sp2-bonded carbon atoms that forms a honeycomb crystal lattice [1]
The fluorescent signal detected using the PCR-Graphene oxide (GO) system is proportional to the amplicon concentration
We evaluated the performance of the PCR-GO system for detecting IS6110 DNA in clinical samples
Summary
Graphene is a one-atom-thick planar sheet of sp2-bonded carbon atoms that forms a honeycomb crystal lattice [1]. Graphene-Based PCR for Detecting the IS6110 Sequence ultraviolet to the near-infrared regions. Graphene is an efficient fluorescence quencher that is useful in the optical-based detection of biomolecules [6,7,8,9]. GO could potentially be used as a fluorescence quencher for the detection of DNA sequences instead of conventional fluorescent probes, such as TaqMan or Molecular Beacon probes. Using GO as a quencher may be advantageous in that it more efficiently quenches fluorescence than other commonly used quenchers. GO can serve as a universal quencher, in contrast to conventional fluorescent probes such as TaqMan and Molecular Beacon probes, which are FRET-based donor-acceptor (quencher) dye pairs that must be prepared for each target sequence being detected [6]
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