The inhibition of fluorescence resonance energy transfer between quantum dots for glucose assay
2012
Hu, Bo | Zhang, Li-Pei | Chen, Mei-Ling | Chen, Ming Li | Wang, Jian-hua
Fluorescence resonance energy transfer (FRET) between two quantum dots of different sizes causes fluorescence quenching. Hereby a binding site pre-blocking approach is proposed to avoid this effect. Pre-binding of glucose on the donor occupies the binding sites and thus blocks resonance energy transfer between the two quantum dots, protecting the fluorescence from being quenched. A glucose assay is developed based on this approach. The glucose content is correlated with the fluorescence difference in the absence and in the presence of glucose. In practice, Green QDs–Con A conjugates are used as donors and Red QDs–NH₂-glu conjugates as acceptors to form FRET system. The inhibition of fluorescence quenching is then measured in the presence of glucose. A linear calibration graph is achieved within 0.1–2.0mmolL⁻¹, along with a detection limit of 0.03mmolL⁻¹ and a RSD of 2.1% (1.0mmolL⁻¹). 91–105% of glucose in serum and urine samples is recovered. It is worth mentioning that the present glucose assay approach also generates a fluorescence chromatic difference imaging, and the color display clearly identifies the glucose contents by visual detection with a distinguishing ability of ca. 0.5mmolL⁻¹. The present approach can potentially be used for the clinical determination of glucose in biological samples which can be further developed into a glucose sensor.
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