A Rapid and Highly Sensitive CRISPR Assay Utilizing Cas12a Orthologs for the Detection of Novel Duck Reovirus

The novel duck reovirus (NDRV) disease presents a significant threat to the poultry industry due to the absence of effective therapeutic measures. As a result, there is an urgent need to develop innovative rapid diagnostic methods for early virus detection. In this study, we developed a Rapid Visual CRISPR Assay to detect the NDRV S3 gene using novel Cas12a orthologs. Specifically, we compared the performance of two candidates, Gs12-16 and Gs12-18, in detecting the NDRV S3 gene to identify a highly sensitive and efficient CRISPR-based diagnostic method. Our results demonstrated that both Gs12-16 and Gs12-18 exhibited strong cis- and trans-cleavage activities for classical "TTTV" protospacer adjacent motif (PAM)-containing targets in vitro, although they required different reaction temperatures. Notably, Gs12-18 showed relatively higher activity for dsDNA targets compared to Gs12-16, indicating that Gs12-18 is more suitable for CRISPR-based nucleic acid detection applications. To leverage these properties, we integrated Gs12-18 with loop-mediated isothermal amplification (LAMP) technology to establish a LAMP-CRISPR/Gs12-18-mediated method for detecting the NDRV S3 gene. This approach enables highly sensitive and visually detectable on-site identification of the NDRV S3 gene, achieving a sensitivity of 38 copies per reaction. Our LAMP-CRISPR/Gs12-18-based method can be utilized for highly sensitive detection of NDRV nucleic acids.