Ministry of Education Key Laboratory of Analysis and Detection for Food Safety, Department of Chemistry, Fuzhou University, Fuzhou 350108, PR China.
Anal Chim Acta. 2011 Feb 7;686(1-2):144-9. doi: 10.1016/j.aca.2010.11.054. Epub 2010 Dec 8.
A sensitive and facile quartz crystal microbalance (QCM) biosensor for glucose detection in biological fluids was developed by means of a displacement-type assay mode between glucose and its analogy dextran for concanavalin A (ConA) binding sites on a graphene-based sensing platform. To construct such a displacement-based sensor, phenoxy-derived dextran (DexP) molecules were initially assembled onto the surface of graphene-coated QCM probe via π-π stacking interaction, and ConA molecules were then immobilized on the dextran through the dextran-ConA interaction. Upon addition of glucose, the analyte competed with the dextran for the ConA, and displaced it from the QCM probe, leading to a change in the frequency. Under optimal conditions, the frequency change relative to the basic resonant frequency was proportional to glucose concentration, and exhibited a dynamic range from 0.01 to 7.5 mM with a low detection limit (LOD) of 5.0 μM glucose (at 3σ). The relative standard deviations (RSDs) were below 6.2% and 9.0% for the reproducibility and selectivity of the QCM glucose sensors, respectively. In addition, the assay system was evaluated with glucose spiking samples into the distilled water and blank cattle serum, receiving in excellent correlation with the referenced values.
一种用于生物流体中葡萄糖检测的灵敏且简便的石英晶体微天平(QCM)生物传感器,通过葡萄糖与其类似物葡聚糖在基于石墨烯的传感平台上与伴刀豆球蛋白 A(ConA)结合位点之间的置换型测定模式来开发。为了构建这种基于置换的传感器,首先通过π-π 堆积相互作用将苯氧基衍生的葡聚糖(DexP)分子组装到涂覆有石墨烯的 QCM 探针表面上,然后通过葡聚糖-ConA 相互作用将 ConA 分子固定在葡聚糖上。加入葡萄糖后,分析物与葡聚糖竞争 ConA,并将其从 QCM 探针上置换下来,导致频率发生变化。在最佳条件下,相对于基本共振频率的频率变化与葡萄糖浓度成正比,检测范围从 0.01 到 7.5mM,检测限(LOD)为 5.0μM 葡萄糖(在 3σ 处)。QCM 葡萄糖传感器的重现性和选择性的相对标准偏差(RSD)分别低于 6.2%和 9.0%。此外,该测定系统通过向蒸馏水和空白牛血清中添加葡萄糖进行了评估,与参考值具有极好的相关性。
