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A Nanoenzyme-Sensitized Photoelectrochemical Biosensing Platform Integrated with a Two-Step Radical Polymerization Signal Amplification Strategy for Ultrasensitive Detection of PTP1B Activity

化学 生物传感器 检出限 聚合 辣根过氧化物酶 组合化学 碱性磷酸酶 生物物理学 纳米技术 色谱法 生物化学 聚合物 有机化学 材料科学 生物
作者
Huan Wang,Yiyuan Yang,Cuicui Du,Hejie Zheng,Xiaohua Zhang,Jinhua Chen
出处
期刊:Analytical Chemistry [American Chemical Society]
卷期号:97 (21): 11307-11316 被引量:6
标识
DOI:10.1021/acs.analchem.5c01667
摘要

Dephosphorylation is an essential process in cellular signaling with protein phosphatases playing a critical role in cellular functions and disease mechanisms. Herein, a novel and ultrasensitive photoelectrochemical (PEC) biosensing platform for detecting protein tyrosine phosphatase 1B (PTP1B) activity was developed, based on the sensitization effect of a magnetic ZnFe2O4@ZrMOF nanoenzyme integrated with a two-step radical polymerization signal amplification strategy. The PTP1B-specific phosphorylated peptide (p-peptide) was immobilized on a 96-well plate and then coupled to the ZnFe2O4@ZrMOF nanoenzyme through coordination between its phosphate groups and Zr4+ ions. When PTP1B was present, the p-peptide was specifically recognized and dephosphorylated, causing the release of ZnFe2O4@ZrMOF. After magnetic separation, the detached ZnFe2O4@ZrMOF nanoenzyme, with peroxidase (POD)-like and photoresponsive oxidase (OXD)-like activities, was used as a signal probe, which not only exhibited a PEC signal sensitization effect on the AgInS2/Ag2S/magnetic ITO (MITO) photoelectrode but also triggered two-step radical polymerization reactions to form the ZnFe2O4@ZrMOF/polydopamine (PDA)/ poly(ferrocenylmethyl methacrylate) (PFcMMA) composite for further enhancing the PEC signal amplification. The proposed PEC biosensing platform achieved ultrasensitive detection of PTP1B activity, demonstrating a wide linear range (10 aM-0.1 μM) and an ultralow detection limit (3.92 aM), along with good reproducibility, satisfactory stability, high selectivity, and promising practical applicability. This work provides a prospective method for protein phosphatase activity assay, facilitating early disease diagnosis and therapeutic development alongside an innovative signal amplification strategy for advancing PEC biosensor sensitivity.
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