Long noncoding RNAs (lncRNAs) play pivotal roles in multifarious physiological and pathological processes, and their aberrant expression may disturb the normal regulatory network of gene expression to induce diverse human… Click to show full abstract
Long noncoding RNAs (lncRNAs) play pivotal roles in multifarious physiological and pathological processes, and their aberrant expression may disturb the normal regulatory network of gene expression to induce diverse human diseases. Herein, we construct a fluorescent light-up biosensor with a low background for label-free detection of lncRNAs by coupling duplex-specific nuclease (DSN)-assisted target recycling amplification with transcription-driven synthesis of fluorogenic RNA aptamer-Corns. We design two linear probes, including a capture probe for initiating a cyclic cleavage reaction and a linear template for transcribing RNA aptamer-Corn. Target lncRNA is recognized by capture probes assembled on magnetic bead (MB) surfaces to trigger a DSN-assisted cyclic cleavage reaction, releasing abundant T7 promoter sequences. After magnetic separation, free T7 promoter hybridizes with a linear template to induce efficient transcription amplification with the assistance of T7 RNA polymerase, producing numerous fluorogenic RNA aptamer-Corns that can light up small-molecule fluorogens 3,5-difluoro-4-hydroxybenzylidene-imidazolinone-2-oxime (DFHO). Notably, the introduction of MBs facilitates both the separation of cleaved capture probes and the enrichment/isolation of target lncRNAs from the complex biological matrix. Benefiting from the high efficiency of DSN/T7 RNA polymerase-mediated cascade amplification and high signal-to-background ratio of the Corn-DFHO complex, this biosensor is capable of sensitively quantifying lncRNA with a detection limit of 31.98 aM. Moreover, it can precisely quantify lncRNA at the single-cell level and even in complex biological samples, and it can differentiate tumor cells from normal cells. Importantly, this Corn-based biosensor is readily extended to detect other lncRNAs by altering capture probe sequences, opening a new avenue for molecular diagnosis.
               
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