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Multiply Guaranteed and Successively Amplified Activation of a Catalytic DNA Machine for Highly Efficient Intracellular Imaging of MicroRNA

Shanshan Yu, Jinhua Shang, Shizhen He, Qing Wang, Ruomeng Li, Yingying Chen, Xiaoqing Liu, Fuan Wang

2022Small40 citationsDOI

Abstract

DNA amplification machines show great promise for intracellular imaging, yet are always constrained by off-site machinery activation or signal leakage, originating from the inherent thermodynamically driven hybridization between machinery substrates. Herein, an entropy-driven catalytic DNA amplification machine is integrated with the on-site amplified substrate exposure procedure to realize the high-contrast in vivo imaging of microRNA (miRNA). The key machinery substrate (fuel strands) is initially split into substrate subunits that are respectively grafted into an auxiliary DNA polymerization amplification accessory for eliminating the undesired signal leakage. Meanwhile, in target cells, the auxiliary polymerization accessory can be motivated by cell-specific mRNA for successively restoring their intact machine-propelling functions for guaranteeing the on-site amplified imaging of miRNA with high specificity. This intelligent on-site multiply guaranteed machinery can improve the specificity of catalytic DNA machines for discriminating different cell types and, thus, can provide a remarkable prospect in biomedical diagnosis.

Topics & Concepts

DNAIntracellularBiophysicsmicroRNALeakage (economics)NanotechnologyMaterials scienceBiological systemChemistryBiologyBiochemistryGeneMacroeconomicsEconomicsAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryBacteriophages and microbial interactions
Multiply Guaranteed and Successively Amplified Activation of a Catalytic DNA Machine for Highly Efficient Intracellular Imaging of MicroRNA | Litcius