Constraint Coupling of Redox Cascade and Electron Transfer Synchronization on Electrode‐Nanosensor Interface for Repeatable Detection of Tumor Biomarkers

Author:

Xie Xiyue1,Jin Kaifei1,Wang Zhenqiang1,Wang Shuai1,Zhu Jing1,Huang Jixi1,Tang Shuqi1,Cai Kaiyong1,Zhang Jixi1ORCID

Affiliation:

1. Key Laboratory of Biorheological Science and Technology Ministry of Education College of Bioengineering Chongqing University No. 174 Shazheng Road Chongqing 400044 China

Abstract

AbstractQuantitative analysis of up‐regulated biomarkers in pathological tissues is helpful to tumor surgery yet the loss of biomarker extraction and time‐consuming operation limited the accurate and quick judgement in preoperative or intraoperative diagnosis. Herein, an immobilization‐free electrochemical sensing platform is developed by constraint coupling of electron transfer cascade on electrode‐nanosensor interface. Specifically, electrochemical indicator (Ri)‐labeled single‐stranded DNA on electroactive nanodonor (polydopamine, PDA) can be responsively detached by formation of DNA complex through the recognition and binding with targets. By applying the oxidation potential of Ri, nanosensor collisions on electrode surface trigger a cascade redox cycling of PDA and Ri through synchronous electron transfer, which boost the amplification of current signal output. The developed nanosensor exhibit excellent linear response toward up‐regulated biomarkers (miRNA‐21, ATP, and VEGF) with low detection limits (32 fM, 386 pM, and 2.8 pM). Moreover, background influence from physiological interferent is greatly reduced by restricted electron transfer coupling on electrode. The practical applicability is illustrated in sensitive and highly repeatable profiling of miRNA‐21 in lysate of tumor cells and tumor tissue, beneficial for more reliable diagnosis. This electrochemical platform by employing electron transfer cascades at heterogeneous interfaces offers a route to anti‐interference detection of biomarkers in tumor tissues.

Funder

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities

Natural Science Foundation of Chongqing Municipality

Publisher

Wiley

Subject

General Materials Science,General Chemistry

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