Tandem CRISPR nucleases-based lateral flow assay for amplification-free miRNA detection via the designed "locked RNA/DNA" as fuels.

Currently, available biosensors based on CRISPR/Cas typically depend on coupling with nucleic acid amplification technologies to enhance their sensitivity. However, this approach often involves intricate amplification processes, which could be time-consuming and susceptible to contamination. In addition, signal readouts often require sophisticated and cumbersome equipment, obstructing the applicability of CRISPR/Cas assays in resource-limited regions. Herein, a tandem CRISPR/Cas13a/Cas12a mechanism (tanCRISPR) has been developed via the designed "Locked RNA/DNA" probe as fuels for the trans-cleavage nucleic acid of Cas13a and activated nucleic acid of Cas12a. Meanwhile, a lateral flow assay (LFA) is designed to combine with this tandem CRISPR/Cas13a/Cas12a mechanism (termed tanCRISPR-LFA), realizing the portable monitoring of miRNA-21. The tanCRISPR could realize the limit of detection at pM levels (266 folds lower than Cas13a-based miRNA testing alone) without the resort to target amplification procedures. Furthermore, the miRNA-21 levels of MDA-MB-231 cell extracts are sensed by tanCRISPR-LFA, which is comparable to qRT-PCR. With the virtues of portability, rapidity, sensitivity, and low cost, tanCRISPR-LFA is amenable for CRISPR/Cas-based biosensing and potential applications in the clinical diagnosis of miRNA-associated diseases.

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Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. The work has not been submitted elsewhere for publication, in whole or in part, and all the authors listed have approved the manuscript that is enclosed.