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基于二维金属卟啉骨架纳米片的双机制驱动比率型电化学发光生物传感用于蛋白激酶活性检测。

Two-Dimensional Metalloporphyrinic Framework Nanosheet-Based Dual-Mechanism-Driven Ratiometric Electrochemiluminescent Biosensing of Protein Kinase Activity.

机构信息

Intelligent Wearable Engineering Research Center of Qingdao, Research Center for Intelligent and Wearable Technology, College of Textiles and Clothing, State Key Laboratory of Bio-Fibers and Eco-Textiles, Qingdao University, Qingdao 266071, China.

School of Environmental and Municipal Engineering, Qingdao University of Technology, Qingdao 266033, China.

出版信息

ACS Appl Bio Mater. 2021 Feb 15;4(2):1616-1623. doi: 10.1021/acsabm.0c01453. Epub 2021 Jan 26.

DOI:10.1021/acsabm.0c01453
PMID:35014510
Abstract

A dual-mechanism-driven ratiometric electrochemiluminescent (ECL) biosensor was developed for the ultrasensitive detection of protein kinase activity, which was based on a competitive catalytic reaction and resonance energy transfer (RET) by assembling gold nanoparticles (GNPs) on two-dimensional (2D) porphyrinic metal-organic framework (MOF) nanosheets. In this work, an ECL catalytic reaction competing for dissolved O proceeded between 2D copper-based zinc porphyrinic MOF (Cu-TCPP(Zn)) nanosheets and luminol. Meanwhile, the cathodic ECL of singlet oxygen (O), derived from the electrocatalytic reaction of 2D Cu-TCPP(Zn), would be reduced by the assembled GNPs due to RET, while the anodic emission of luminol could be enhanced by GNPs with excellent electrocatalytic activity. With the detection of protein kinase A (PKA) as an example, this dual-mechanism-driven ECL biosensor exhibited a broad linear range (0.005-5.0 U mL) and a sensitive detection limit (0.0037 U mL). Compared with the traditional single-mechanism-driven sensing strategies, the developed dual-mechanism-driven ratiometric ECL biosensor may provide an effective method for the design of green and ultrasensitive ECL sensors.

摘要

一种双机制驱动的比率型电化学发光(ECL)生物传感器被开发用于超灵敏检测蛋白激酶活性,该传感器基于金纳米粒子(GNPs)组装在二维(2D)卟啉金属-有机骨架(MOF)纳米片上,通过竞争催化反应和共振能量转移(RET)实现。在这项工作中,2D 铜基金属卟啉 MOF(Cu-TCPP(Zn))纳米片与鲁米诺之间进行了溶解氧竞争的 ECL 催化反应。同时,由于 RET,来自 2D Cu-TCPP(Zn)的电催化反应的单线态氧(O)的阴极 ECL 将被组装的 GNPs 还原,而鲁米诺的阳极发射则可以通过具有优异电催化活性的 GNPs 增强。以蛋白激酶 A(PKA)的检测为例,这种双机制驱动的 ECL 生物传感器表现出较宽的线性范围(0.005-5.0 U mL)和敏感的检测限(0.0037 U mL)。与传统的单机制驱动的传感策略相比,所开发的双机制驱动的比率型 ECL 生物传感器可能为设计绿色和超灵敏的 ECL 传感器提供一种有效的方法。

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