Programmable RNA detection with CRISPR-Cas12a

Cas12a, a CRISPR-associated protein complex, has an inherent ability to cleave DNA substrates and is utilized in diagnostic tools to identify DNA molecules. We demonstrate that multiple orthologs of Cas12a activate trans-cleavage in the presence of split activators. Specifically, the PAM-distal regi...

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Veröffentlicht in:Nature communications 2023-09, Vol.14 (1), p.5409-5409, Article 5409
Hauptverfasser: Rananaware, Santosh R., Vesco, Emma K., Shoemaker, Grace M., Anekar, Swapnil S., Sandoval, Luke Samuel W., Meister, Katelyn S., Macaluso, Nicolas C., Nguyen, Long T., Jain, Piyush K.
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Sprache:eng
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Zusammenfassung:Cas12a, a CRISPR-associated protein complex, has an inherent ability to cleave DNA substrates and is utilized in diagnostic tools to identify DNA molecules. We demonstrate that multiple orthologs of Cas12a activate trans-cleavage in the presence of split activators. Specifically, the PAM-distal region of the crRNA recognizes RNA targets provided that the PAM-proximal seed region has a DNA target. Our method, Split Activator for Highly Accessible RNA Analysis (SAHARA), detects picomolar concentrations of RNA without sample amplification, reverse-transcription, or strand-displacement by simply supplying a short DNA sequence complementary to the seed region. Beyond RNA detection, SAHARA outperforms wild-type CRISPR-Cas12a in specificity towards point-mutations and can detect multiple RNA and DNA targets in pooled crRNA/Cas12a arrays via distinct PAM-proximal seed DNAs. In conclusion, SAHARA is a simple, yet powerful nucleic acid detection platform based on Cas12a that can be applied in a multiplexed fashion and potentially be expanded to other CRISPR-Cas enzymes. Cas12a is widely used in diagnostic platforms. Here the authors show that Cas12a can be programmed to directly detect RNA substrates, this is due to the 3’-end of the crRNA tolerating both RNA and DNA substrates: they use this to report a method, SAHARA, to detect RNA sequences.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-41006-1