基于碳纳米点的荧光开启型生物硫醇传感器阵列

Carbon Nanodots-Based Fluorescent Turn-On Sensor Array for Biothiols.

机构信息

Liaoning Province Key Laboratory for Green Synthesis and Preparative Chemistry of Advanced Materials, College of Chemistry, Liaoning University , Shenyang, Liaoning 110036, P. R. China.

出版信息

Anal Chem. 2017 Jul 5;89(13):7084-7089. doi: 10.1021/acs.analchem.7b00956. Epub 2017 Jun 22.

DOI:10.1021/acs.analchem.7b00956

PMID:28602089

Abstract

Biothiols play important roles in biological processes. In this study, a novel sensor array-based method was proposed to detect and differentiate biothiols. The sensor array was constructed using three kinds of Ag-sensitive carbon nanodots (CDs). The CDs were synthesized with amino acids and urea as carbon sources via a simple microwave method. Results revealed that Ag can bind with CDs and depress the fluorescence of CDs, while the subsequently joined biothiols can take Ag away from CDs and recover the fluorescence of CDs. Due to the different binding ability between Ag and various CDs, as well as Ag and various biothiols, the CD-Ag array exhibits a unique pattern of fluorescence variations when interacting with six biothiol samples (cysteamine, dithiothreitol, mercaptosuccinic acid, glutathione, mercaptoacetic acid, and mercaptoethanol). Principal component analysis (PCA) was applied to analyze the pattern and generate a clustering map for a clearer identification of these biothiols. PCA can also be employed to simplify the established three-sensor array into a two-sensor array. Both the three- and two-sensor arrays can identify these biothiols in a wide biothiol concentration range (>10 μM).

摘要

生物硫醇在生物过程中发挥着重要作用。本研究提出了一种基于新型传感器阵列的方法来检测和区分生物硫醇。该传感器阵列由三种 Ag 敏感的碳点（CDs）构建而成。CDs 是通过简单的微波法以氨基酸和尿素作为碳源合成的。结果表明，Ag 可以与 CDs 结合并抑制 CDs 的荧光，而随后加入的生物硫醇可以将 Ag 从 CDs 上带走并恢复 CDs 的荧光。由于 Ag 与各种 CDs 以及 Ag 与各种生物硫醇之间的结合能力不同，因此 CD-Ag 阵列在与六种生物硫醇样品（半胱胺、二硫苏糖醇、巯基丁二酸、谷胱甘肽、巯基乙酸和巯基乙醇）相互作用时表现出独特的荧光变化模式。主成分分析（PCA）用于分析该模式并生成聚类图，以更清晰地识别这些生物硫醇。PCA 还可用于将建立的三传感器阵列简化为两传感器阵列。这两个三传感器和两传感器阵列都可以在较宽的生物硫醇浓度范围内（>10 μM）识别这些生物硫醇。

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基于碳纳米点的荧光开启型生物硫醇传感器阵列

Carbon Nanodots-Based Fluorescent Turn-On Sensor Array for Biothiols.

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