硼酸酸功能化 g-CN 纳米片用于生理环境中糖蛋白的超灵敏和选择性传感。

Boronic acid functionalized g-CN nanosheets for ultrasensitive and selective sensing of glycoprotein in the physiological environment.

机构信息

Research Center for Analytical Sciences, Department of Chemistry, College of Sciences, Northeastern University, Box 332, Shenyang 110819, China.

出版信息

Nanoscale. 2018 Mar 8;10(10):4913-4920. doi: 10.1039/c7nr09342j.

DOI:10.1039/c7nr09342j

PMID:29480294

Abstract

As important biomarkers, glycoprotein sensing is frequently facilitated by boronic acid binding with its cis-diols. However, boronic acid based sensors suffer from drawbacks of alkali restriction and/or sensitivity limitation. Herein, we report boronic acid decorated g-CN nanosheets (B-g-CN) with a Wulff-type boronic acid feature, which selectively bind glycoprotein under physiological conditions. Meanwhile, the binding causes significant enhancement of the B-g-CN nanosheet fluorescence, providing the basis for glycoprotein sensing. With IgG as a model, a detection limit (LOD) of 2.2 nM (3σ/s, n = 11) was obtained within a linear range of 6.7-67 nM. The LOD was further improved to 52 pM subject to enrichment of the nanosheets, which well enables IgG assay in human urine samples. Moreover, it was successful in imaging endogenous and exogenous glycoproteins in living cells.

摘要

作为重要的生物标志物，硼酸与顺式二醇的结合经常促进糖蛋白的感应。然而，基于硼酸的传感器存在碱限制和/或灵敏度限制的缺点。在此，我们报告了具有 Wulff 型硼酸特征的硼酸修饰 g-CN 纳米片（B-g-CN），其在生理条件下选择性地结合糖蛋白。同时，结合导致 B-g-CN 纳米片荧光显著增强，为糖蛋白感应提供了基础。以 IgG 作为模型，在 6.7-67 nM 的线性范围内，检测限（LOD）为 2.2 nM（3σ/s，n = 11）。通过纳米片的富集，LOD 进一步提高到 52 pM，这很好地实现了人尿液样本中的 IgG 检测。此外，它还成功地对活细胞中的内源性和外源性糖蛋白进行了成像。

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硼酸酸功能化 g-CN 纳米片用于生理环境中糖蛋白的超灵敏和选择性传感。

Boronic acid functionalized g-CN nanosheets for ultrasensitive and selective sensing of glycoprotein in the physiological environment.

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