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Cooperativity between Cas9 and hyperactive AID establishes broad and diversifying mutational footprints in base editors

Nucleic Acids Res. 2024-02; 
Kiara N Berríos, Aleksia Barka, Jasleen Gill, Juan C Serrano, Peter F Bailer, Jared B Parker, Niklaus H Evitt, Kiran S Gajula, Junwei Shi, Rahul M Kohli
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Molecular Biology Reagents … Cloning of this construct was performed by GenScript. For our R-loop assays, we … Design and cloning of sgRNA expression plasmids The sgRNA expression plasmids were generated … Get A Quote

摘要

The partnership of DNA deaminase enzymes with CRISPR-Cas nucleases is now a well-established method to enable targeted genomic base editing. However, an understanding of how Cas9 and DNA deaminases collaborate to shape base editor (BE) outcomes has been lacking. Here, we support a novel mechanistic model of base editing by deriving a range of hyperactive activation-induced deaminase (AID) base editors (hBEs) and exploiting their characteristic diversifying activity. Our model involves multiple layers of previously underappreciated cooperativity in BE steps including: (i) Cas9 binding can potentially expose both DNA strands for 'capture' by the deaminase, a feature that is enhanced by guide RNA mismatches; (ii) ... More

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