Catalytic Hairpin Assembly Actuated DNA Nanotweezer for Logic Gate Building and Sensitive Enzyme-Free Biosensing of MicroRNAs
- PMID: 27367785
- DOI: 10.1021/acs.analchem.5b04844
Catalytic Hairpin Assembly Actuated DNA Nanotweezer for Logic Gate Building and Sensitive Enzyme-Free Biosensing of MicroRNAs
Abstract
A target-switched DNA nanotweezer is designed for AND logic gate operation and enzyme-free detection of microRNAs (miRNAs) by catalytic hairpin assembly (CHA) and proximity-dependent DNAzyme formation. The double crossover motif-based nanotweezer consists of an arched structure as the set strand for target inputs and two split G-rich DNAs at the termini of two arms for signal output. Upon a CHA, a small amount of binary target inputs can switch numerous open nanotweezers to a closed state, which leads to the formation of proximity-dependent DNAzyme in the presence of hemin to produce a highly sensitive biosensing system. The binary target inputs can be used for successful building of AND logic gate, which is validated by polyacrylamide gel electrophoresis, surface plasmon resonance and the biosensing signal. The developed biosensing system shows a linear response of the output chemiluminescence signal to input binary miRNAs with a detection limit of 30 fM. It can be used for miRNAs analysis in complex sample matrix. This system provides a simple and reusable platform for logic gate operation and enzyme-free, highly sensitive, and specific multianalysis of miRNAs.
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