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CRISPR–Cas12a-mediated DNA clamping triggers target-strand cleavage

Mohsin M. Naqvi, Laura Lee, Oscar Enrique Torres Montaguth, Fiona M. Diffin, Mark D. Szczelkun

2022Nature Chemical Biology69 citationsDOIOpen Access PDF

Abstract

Clustered regularly interspaced short palindromic repeats (CRISPR)-Cas12a is widely used for genome editing and diagnostics, so it is important to understand how RNA-guided DNA recognition activates the cleavage of the target strand (TS) following non-target-strand (NTS) cleavage. Here we used single-molecule magnetic tweezers, gel-based assays and nanopore sequencing to explore DNA unwinding and cleavage. In addition to dynamic and heterogenous R-loop formation, we also directly observed transient double-stranded DNA unwinding downstream of the 20-bp heteroduplex and, following NTS cleavage, formation of a hyperstable 'clamped' Cas12a-DNA intermediate necessary for TS cleavage. Annealing of a 4-nucleotide 3' CRISPR RNA overhang to the unwound TS downstream of the heteroduplex inhibited clamping and slowed TS cleavage by ~16-fold. Alanine substitution of a conserved aromatic amino acid in the REC2 subdomain that normally caps the R-loop relieved this inhibition but favoured stabilisation of unwound states, suggesting that the REC2 subdomain regulates access of the 3' CRISPR RNA to downstream DNA.

Topics & Concepts

CRISPRDNAHeteroduplexCleavage (geology)Cas9RNAGuide RNABiologyMolecular biologyChemistryCell biologyBiophysicsGeneticsGeneFracture (geology)PaleontologyCRISPR and Genetic EngineeringRNA and protein synthesis mechanismsAdvanced biosensing and bioanalysis techniques