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Ultrahigh-Speed 3D DNA Walker with Dual Self-Protected DNAzymes for Ultrasensitive Fluorescence Detection and Intracellular Imaging of microRNA

Mengshi Jiang, Jie Zhou, Yaqin Chai, Ruo Yuan

2024Analytical Chemistry22 citationsDOI

Abstract

Herein, a dual self-protected DNAzyme-based 3D DNA walker (dSPD walker), composed of activated dual self-protected walking particles (ac-dSPWPs) and track particles (TPs), was constructed for ultrasensitive and ultrahigh-speed fluorescence detection and imaging of microRNAs (miRNAs) in living cells. Impressively, compared with the defect that “one” target miRNA only initiates “one” walking arm of the conventional single self-protected DNAzyme walker, the dSPD walker benefits from the secondary amplification and spatial confinement effect and could guide “one” target miRNA to generate “ n ” secondary targets, thereby initiating “ n ” nearby walking strands immediately, realizing the initial rate over one-magnitude-order faster than that of the conventional one. Moreover, in the process of relative motion between ac-dSPWPs and TPs, the ac-dSPWPs could cleave multiple substrate strands simultaneously to speed up movement and reduce the derailment rate, as well as combine with successive TPs to facilitate a large amount of continuous signal accumulation, achieving an ultrafast detection of miRNA-221 within 10 min in vitro and high sensitivity with a low detection limit of 0.84 pM. In addition, the DNA nanospheres obtained by the rolling circle amplification reaction can capture the Cy5 fluorescence dispersed in liquids, which achieves the high-contrast imaging of miRNA-221, resulting in further ultrasensitive imaging of miRNA-221 in cancer cells. The proposed strategy has made a bold innovation in the rapid and sensitive detection as well as intracellular imaging of low-abundance biomarkers, offering promising application in early diagnosis and relevant research of cancer and tumors.

Topics & Concepts

DeoxyribozymeChemistryRolling circle replicationCleaveFluorescencemicroRNADNADetection limitNanotechnologyBiophysicsFluorescence-lifetime imaging microscopyComputational biologyOpticsBiochemistryGeneChromatographyPhysicsMaterials scienceDNA replicationBiologyAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryBiosensors and Analytical Detection