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.