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Boosting CRISPR/Cas12a intrinsic RNA detection capability through pseudo hybrid DNA–RNA substrate design

Jie Qiao, Junqi Zhang, Qingyuan Jiang, Shuqi Jin, Ruyi He, Bin Qiao, Yi Liu

2025Nucleic Acids Research14 citationsDOIOpen Access PDF

Abstract

The CRISPR/Cas12a [clustered regularly interspaced palindromic repeats (CRISPR)/CRISPR-associated protein 12a] system is known for its intrinsic RNA-guided trans-cleavage activity; however, its RNA detection sensitivity is limited, with conventional methods typically achieving detection limits in the nanomolar range. Here, we report the development of a "pseudo hybrid DNA-RNA" (PHD) assay that significantly enhances the RNA detection capability of Cas12a. The PHD assay achieves a striking detection limit of 7.7 pM using single CRISPR RNA (crRNA) and 33.8 fM using pooled crRNAs. Importantly, this assay exhibits ultra-high specificity, capable of distinguishing mutated RNA target sequences at the protospacer adjacent motif (PAM)-distal region. It can also detect ultrashort RNA sequences as short as 6-8 nt and long RNAs with complex secondary structures. Additionally, the PHD assay enables PAM-free attomolar-level DNA detection. We further demonstrate the practical utility of the PHD assay by successfully detecting miR-155 biomarkers and human pappilloma virus 16 DNA in clinical samples. We anticipate that the design principles established in this study can be extended to other CRISPR/Cas enzymes, thereby accelerating the development of powerful nucleic acid testing tools for various applications.

Topics & Concepts

BiologyCRISPRRNADNAComputational biologyGeneticsBoosting (machine learning)Molecular biologyGeneComputer scienceMachine learningCRISPR and Genetic EngineeringInnovation and Socioeconomic DevelopmentEvolution and Genetic Dynamics