Development of an inducible Cas9 nickase and PAM-free Cas12a platform for bacterial diagnostics.

Rapid, efficient, specific and sensitive diagnostic techniques are critical for selecting appropriate treatments for drug-resistant bacterial infections. To address this challenge, we have developed a novel diagnostic method, called the Dual-Cas Tandem Diagnostic Platform (DTDP), which combines the use of Cas9 nickase (Cas9n) and Cas12a. DTDP works by utilizing the Cas9n-sgRNA complex to create a nick in the target strand's double-stranded DNA (dsDNA).

Ligation-dependent Cas14a1-Activated biosensor for one-pot pathogen diagnostic.

Pathogen identification requires nucleic acid diagnosis with simple equipment and fast manipulation. Our work established an all-in-one strategy assay with excellent sensitivity and high specificity, Transcription-Amplified Cas14a1-Activated Signal Biosensor (TACAS), for the fluorescence-based bacterial RNA detection. The DNA as a promoter probe and a reporter probe directly ligated via SplintR ligase once specifically hybridized to the single-stranded target RNA sequence, with the ligation product transcribed into Cas14a1 RNA activators by T7 RNA polymerase.