基于金纳米粒子的荧光传感器用于高灵敏和选择性检测活细胞中的巯基。

A gold nanoparticle-based fluorescence sensor for high sensitive and selective detection of thiols in living cells.

出版信息

Biosens Bioelectron. 2016 Jan 15;75:1-7. doi: 10.1016/j.bios.2015.08.007.

DOI:10.1016/j.bios.2015.08.007

Abstract

A novel gold nanoparticle (AuNP)-based sensor for detecting thiols in aqueous solution has been developed. Due to the weak N···Au interactions, meso-(4-pyridinyl)-substituted BODIPY (4,4-difluoro-4-bora-3a,4a-diaza-s-indacene) dyes were coordinated to AuNP surfaces, which effectively quenched the fluorescence of organic/inorganic hybrid systems. The fluorescent quenching mechanism was mainly ascribed to the highly efficient fluorescent resonance energy transfer (FRET) and the inner filter effect. In the presence of thiols, meso-(4-pyridinyl)-substituted BODIPY chromophore were displaced and released from the AuNP surfaces and thus restored the fluorescence of BODIPY chromophore. The modulation of the fluorescence quenching efficiency of BODIPY–AuNPs in the presence of thiols can achieve a large turn-on fluorescence enhancement (40-fold) in aqueous solution. The new AuNP-based fluorescence sensor displayed desired properties such as high specificity, relatively low detection limit (30 nM for Cys), appreciable water solubility and rapid response time (within 2 min for Cys/Hcy). Moreover, the sensor has been successfully applied for monitoring and imaging of intracellular thiols within living HeLa cells.

摘要

一种新型的基于金纳米粒子（AuNP）的传感器已被开发出来，用于检测水溶液中的硫醇。由于弱的 N···Au 相互作用，间位（4-吡啶基）取代的 BODIPY（4,4-二氟-4-硼-3a,4a-二氮杂-s-茚）染料与 AuNP 表面配位，有效地猝灭了有机/无机杂化体系的荧光。荧光猝灭机制主要归因于高效的荧光共振能量转移（FRET）和内滤效应。在硫醇存在下，间位（4-吡啶基）取代的 BODIPY 生色团从 AuNP 表面取代并释放出来，从而恢复了 BODIPY 生色团的荧光。在硫醇存在下，BODIPY-AuNP 的荧光猝灭效率的调制可以在水溶液中实现大的荧光开启增强（40 倍）。基于 AuNP 的新型荧光传感器表现出高特异性、相对低的检测限（Cys 为 30 nM）、良好的水溶性和快速的响应时间（Cys/Hcy 为 2 分钟内）等理想特性。此外，该传感器已成功应用于活 HeLa 细胞内硫醇的监测和成像。

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基于金纳米粒子的荧光传感器用于高灵敏和选择性检测活细胞中的巯基。

A gold nanoparticle-based fluorescence sensor for high sensitive and selective detection of thiols in living cells.

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