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Anal Chem ; 96(18): 7274-7280, 2024 05 07.
Article in English | MEDLINE | ID: mdl-38655584

ABSTRACT

Inspired by natural DNA networks, programmable artificial DNA networks have become an attractive tool for developing high-performance biosensors. However, there is still a lot of room for expansion in terms of sensitivity, atom economy, and result self-validation for current microRNA sensors. In this protocol, miRNA-122 as a target model, an ultrasensitive fluorescence (FL) and photoelectrochemical (PEC) dual-mode biosensing platform is developed using a programmable entropy-driven circuit (EDC) cascaded self-feedback DNAzyme network. The well-designed EDC realizes full utilization of the DNA strands and improves the atomic economy of the signal amplification system. The unique and rational design of the double-CdSe quantum-dot-released EDC substrate and the cascaded self-feedback DNAzyme amplification network significantly avoids high background signals and enhances sensitivity and specificity. Also, the enzyme-free, programmable EDC cascaded DNAzyme network effectively avoids the risk of signal leakage and enhances the accuracy of the sensor. Moreover, the introduction of superparamagnetic Fe3O4@SiO2-cDNA accelerates the rapid extraction of E2-CdSe QDs and E3-CdSe QDs, which greatly improves the timeliness of sensor signal reading. In addition to the strengths of linear range (6 orders of magnitude) and stability, the biosensor design with dual signal reading makes the test results self-confirming.


Subject(s)
Biosensing Techniques , DNA, Catalytic , Electrochemical Techniques , DNA, Catalytic/chemistry , DNA, Catalytic/metabolism , Entropy , Quantum Dots/chemistry , MicroRNAs/analysis , Spectrometry, Fluorescence , Photochemical Processes , Fluorescence , Humans , Cadmium Compounds/chemistry , Selenium Compounds/chemistry , Limit of Detection
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