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Article Abstract
In the field of molecular diagnostics, the demand for multiplex detection, aimed at reducing overall analysis costs and streamlining procedures, is on the rise, prompting ongoing developments in various technologies. In this study, we developed a novel system, the split T7 promoter-based three-way junction-transcription, coupled with Cas12a/Blocker DNA (T3-CaB), for the multiplex detection of target nucleic acids. The T3-CaB system builds upon the foundation of the T3 system, generating numerous RNA transcripts upon encountering target nucleic acids. Subsequently, these RNA transcripts displace the blocker DNA from reporter DNA, allowing active Cas12a to engage in efficient trans-cleavage reaction on the reporter DNA, resulting in a strong fluorescence signal. Importantly, the proposed system operates at the isothermal condition (37 °C), with the entire analysis completed within 90 min. Further, the detection performance of the proposed system surpasses that of the preceding Cas12a/Blocker DNA system. Model targets, namely the 16S rRNA of Staphylococcus aureus and Escherichia coli, were selected, and a successful demonstration of multiplex detection was achieved. This technology holds promise for broadening the applicability of CRISPR/Cas-based diagnostics, especially in settings necessitating multiplex detection capabilities.
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