Detection of influenza A virus based on fluorescence resonance energy transfer from quantum dots to carbon nanotubes.

Abstract

In this paper, a simple and sensitive approach for H5N1 DNA detection was described based on the fluorescence resonance energy transfer (FRET) from quantum dots (QDs) to carbon nanotubes (CNTs) in a QDs-ssDNA/oxCNTs system, in which the QDs (CdTe) modified with ssDNA were used as donors. In the initial stage, with the strong interaction between ssDNA and oxCNTs, QDs fluorescence was effectively quenched. Upon the recognition of the target, the effective competitive bindings of it to QDs-ssDNA occurred, which decreased the interactions between the QDs-ssDNA and oxCNTs, leading to the recovery of the QDs fluorescence. The recovered fluorescence of QDs was linearly proportional to the concentration of the target in the range of 0.01-20 μM with a detection limit of 9.39 nM. Moreover, even a single-base mismatched target with the same concentration of target DNA can only recover a limited low fluorescence of QDs, illustrating the good anti-interference performance of this QDs-ssDNA/oxCNTs system. This FRET platform in the QDs-ssDNA/oxCNTs system was facilitated to the simple, sensitive and quantitative detection of virus nucleic acids and could have a wide range of applications in molecular diagnosis.

DOI: 10.1016/j.aca.2012.02.030

Cite this paper

@article{Tian2012DetectionOI, title={Detection of influenza A virus based on fluorescence resonance energy transfer from quantum dots to carbon nanotubes.}, author={Junping Tian and Huimin Zhao and Meng Liu and Yaqiong Chen and Xie Quan}, journal={Analytica chimica acta}, year={2012}, volume={723}, pages={83-7} }