Key Laboratory of Chemical Biology and Traditional Chinese Medicine Research (Ministry of Education), College of Chemistry and Chemical Engineering, Hunan Normal University, Changsha 410081, PR China.
Hospital of Hunan Normal University, Hunan Normal University, Changsha 410081, PR China.
Talanta. 2017 Mar 1;164:580-587. doi: 10.1016/j.talanta.2016.10.008. Epub 2016 Oct 3.
Diabetes mellitus is an epidemic disease that it has became a worldwide public health problem. Thus, blood glucose monitoring has attracted extensive attention. Here, we report a nanosensor based on inner filter effect (IFE) between upconversion nanoparticles (UCNPs) and squaric acid (SQA)-iron(III) for the highly sensitive and selective detection of glucose levels in human serum. In this assay, GOx-catalyzed oxidization of glucose produces gluconic acid and hydrogen peroxide (HO). The latter can catalytically oxidize iron(II) to iron(III) which can rapidly (<1min) coordinate with the SQA to produce (SQA)-iron(III). The absorption band of (SQA)-iron(III) largely covered the emission band of UCNPs, resulting the fluorescence emission of UCNPs was effectively quenched. Therefore, the glucose can be monitored based on the formation of SQA-iron(III). Under the optimal condition, the fluorescence quenching efficiency shows a good linear response to glucose concentration in the ranges of 7-340μmol/L with a detection limit of 2.3μmol/L. The developed method has been further applied to monitor glucose levels in human serum with satisfactory results. Compared with other fluorescence methods, current method displayed high sensitivity and signal-to-noise ratio. Meanwhile, this nanosystem is also generalizable and can be easily expanded to the detection of various HO-involved analytes.
糖尿病是一种流行病,已成为全球公共卫生问题。因此,血糖监测引起了广泛关注。在这里,我们报告了一种基于上转换纳米粒子(UCNPs)和均苯三甲酸(SQA)-铁(III)之间内滤效应(IFE)的纳米传感器,用于高灵敏和选择性检测人血清中的葡萄糖水平。在该测定法中,GOx 催化葡萄糖氧化产生葡萄糖酸和过氧化氢(HO)。后者可以催化氧化铁(II)为铁(III),铁(III)可以迅速(<1min)与 SQA 配位生成(SQA)-铁(III)。(SQA)-铁(III)的吸收带很大程度上覆盖了 UCNPs 的发射带,导致 UCNPs 的荧光发射被有效猝灭。因此,可以基于 SQA-铁(III)的形成来监测葡萄糖。在最佳条件下,荧光猝灭效率对 7-340μmol/L 范围内的葡萄糖浓度表现出良好的线性响应,检测限为 2.3μmol/L。该方法已进一步应用于人血清中葡萄糖水平的监测,结果令人满意。与其他荧光方法相比,当前方法具有高灵敏度和信噪比。同时,该纳米系统具有通用性,可以轻松扩展到检测各种涉及 HO 的分析物。
