A two dimensional metal–organic framework nanosheets-based fluorescence resonance energy transfer aptasensor with circular strand-replacement DNA polymerization target-triggered amplification strategy for homogenous detection of antibiotics

费斯特共振能量转移 化学 适体 检出限 荧光 底漆(化妆品) 组合化学 DNA 分析物 石墨烯 聚合 荧光染料 纳米技术 生物物理学 色谱法 实时聚合酶链反应 生物化学 分子生物学 有机化学 物理 基因 生物 量子力学 材料科学 聚合物
作者
Qian Yang,Lingying Zhou,Yong‐Xiang Wu,Kai Zhang,Yuting Cao,You Zhou,Dazhen Wu,Futao Hu,Ning Gan
出处
期刊:Analytica Chimica Acta [Elsevier BV]
卷期号:1020: 1-8 被引量:67
标识
DOI:10.1016/j.aca.2018.02.058
摘要

In the study, a novel two dimensional metal-organic framework (Cu-TCPP nanosheets) based fluorescence resonance energy transfer (FRET) aptasensing platform was developed for detecting antibiotics. Cu-TCPP nanosheets were employed for quenching the background fluorescence and circular strand-replacement DNA polymerization (CSRP) for signal amplification. To fulfill the purpose, we designed an aptamer hairpin probe (HP) whose stem can be opened while specifically binding to target. Then the opened HP would bind with the primer. Under the action of polymerase, extension reaction was induced to generate double-stranded DNA (dsDNA), and then the target was released for the next cycle. Finally, SYBR Green I (SG) can bind with dsDNA to produce strong fluorescence response for quantification of target. It's worth mentioning that the fluorescence of HP/SG complex and free SG could be completely quenched by Cu-TCPP nanosheets while that of dsDNA/SG complex wouldn't be affected. Thus, the sensor produced negligible background signals. It can produce 7.5-fold improved S/N compared to a graphene oxide (GO)-based FRET aptasensor. Chloramphenicol (CAP) was chosen as the model analyte to demonstrate the feasibility of the sensor system. The detection range is broad from 0.001 to 10 ng mL-1 with a detection limit down to 0.3 pg mL-1. The proposed assay was label free and can be used in homogenous detection which greatly simplifies the complexity of operations. The strategy opens a new way to develop sensitive, in-situ and simple assay for antibiotics in foods.
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