基于石墨烯量子点的荧光共振能量转移用于酸性磷酸酶的高灵敏检测

Highly sensitive detection of acid phosphatase by using a graphene quantum dots-based förster resonance energy transfer.

作者信息

Na Weidan, Liu Qing, Sui Bowen, Hu Tianyu, Su Xingguang

机构信息

Department of Analytical Chemistry, College of Chemistry, Jilin University, Changchun, 130012 China.

出版信息

Talanta. 2016 Dec 1;161:469-475. doi: 10.1016/j.talanta.2016.08.043. Epub 2016 Aug 16.

DOI:10.1016/j.talanta.2016.08.043

PMID:27769433

Abstract

A novel and effective fluorescence strategy was developed for sensitive and selective detection of acid phosphatase (ACP). A förster resonance energy transfer (FRET) biosensor was established by attaching nile red (NR) to graphene quantum dots (GQDs) via lecithin/β-Cyclodextrin (lecithin/β-CD) complex as the linker. The introduction of lecithin/β-CD would brought GQDs-NR pair close enough through both electrostatic interaction and hydrophobic interaction, thereby making the FRET occur and thus resulting in the fluorescence quenching of GQDs (donor) and meanwhile the fluorescence enhancement of NR (acceptor). The presence of ACP in the sensing system would catalyze the hydrolysis of lecithin into two parts, resulting in the GQDs-NR pair separation. Meanwhile, considerable fluorescence recovery of GQDs and decreasing of NR was observed due to the inhibition of FRET progress. In this method, the limit of detection (LOD) is 28µUmL which was considerably low for ACP detection. Using the GQDs-based fluorescence biosensor, we successfully performed in vitro imaging of human prostate cancer cells.

摘要

开发了一种新颖有效的荧光策略，用于灵敏且选择性地检测酸性磷酸酶（ACP）。通过卵磷脂/β-环糊精（卵磷脂/β-CD）复合物作为连接剂，将尼罗红（NR）连接到石墨烯量子点（GQDs）上，建立了一种荧光共振能量转移（FRET）生物传感器。卵磷脂/β-CD的引入会通过静电相互作用和疏水相互作用使GQDs-NR对足够靠近，从而使FRET发生，进而导致GQDs（供体）的荧光猝灭，同时NR（受体）的荧光增强。传感系统中ACP的存在会催化卵磷脂水解成两部分，导致GQDs-NR对分离。同时，由于FRET进程受到抑制，观察到GQDs的荧光有相当程度的恢复，而NR的荧光则减弱。在该方法中，检测限（LOD）为28µU/mL，这对于ACP检测来说相当低。使用基于GQDs的荧光生物传感器，我们成功地对人前列腺癌细胞进行了体外成像。

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基于石墨烯量子点的荧光共振能量转移用于酸性磷酸酶的高灵敏检测

Highly sensitive detection of acid phosphatase by using a graphene quantum dots-based förster resonance energy transfer.

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