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CRISPR/Cas12a Protein Switch Powered Label-Free Electrochemical Biosensor for Sensitive Viral Protease Detection

Tianyi Zhang, Yingying Zhao, Cong Zhu, Xi Zhu, Xi Zhu, Xiaohua Zhu, Xiaohua Zhu, Ye Qiu, Zhou Nie, Chunyang Lei

2025Analytical Chemistry14 citationsDOI

Abstract

Viral proteases are critical molecular targets in viral pathogenesis, representing pivotal biomarkers for understanding viral infection mechanisms and developing antiviral therapeutics. This study introduces a label-free electrochemical biosensor that enables sensitive viral protease detection by integrating protease-responsive CRISPR/Cas protein switches (CasPSs) with a hemin aptamer-functionalized electrochemical interface. The biosensor's mechanism relies on viral protease-mediated proteolysis, which leads to the release of active Cas12a proteins from CasPSs and generates amplified electrochemical responses through continuous cleavage of immobilized redox-active hemin/aptamer complexes. This biosensor achieved specific hepatitis C virus NS3/4A protease sensing with femtomolar sensitivity and could be readily expanded to other viral proteases by replacing the CasPS module. The feasibility of this biosensor was demonstrated by monitoring enterovirus 71 3C protease activities in virus-infected cell samples with different viral loads and postinfection times. This study provides a promising strategy for integrating CRISPR biosensing with electrochemical platforms, offering a helpful analytical tool for viral infection monitoring and antiviral drug screening.

Topics & Concepts

ChemistryBiosensorCRISPRProtein detectionComputational biologyNanotechnologyChromatographyCombinatorial chemistryBiochemistryGeneMaterials scienceBiologyCRISPR and Genetic EngineeringViral Infections and Immunology ResearchAdvanced biosensing and bioanalysis techniques
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