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Structural snapshots of R-loop formation by a type I-C CRISPR Cascade

Roisin E. O’Brien, Jack P. K. Bravo, Delisa Ramos, Grace N. Hibshman, Jacquelyn T. Wright, David W. Taylor

2023Molecular Cell14 citationsDOIOpen Access PDF

Abstract

Type I CRISPR-Cas systems employ multi-subunit Cascade effector complexes to target foreign nucleic acids for destruction. Here, we present structures of D. vulgaris type I-C Cascade at various stages of double-stranded (ds)DNA target capture, revealing mechanisms that underpin PAM recognition and Cascade allosteric activation. We uncover an interesting mechanism of non-target strand (NTS) DNA stabilization via stacking interactions with the "belly" subunits, securing the NTS in place. This "molecular seatbelt" mechanism facilitates efficient R-loop formation and prevents dsDNA reannealing. Additionally, we provide structural insights into how two anti-CRISPR (Acr) proteins utilize distinct strategies to achieve a shared mechanism of type I-C Cascade inhibition by blocking PAM scanning. These observations form a structural basis for directional R-loop formation and reveal how different Acr proteins have converged upon common molecular mechanisms to efficiently shut down CRISPR immunity.

Topics & Concepts

CRISPRBiologyEffectorDNAAllosteric regulationCascadeProtein subunitNucleic acidStackingCell biologyMechanism (biology)Computational biologyGeneticsGeneChemistryReceptorPhysicsChromatographyQuantum mechanicsOrganic chemistryCRISPR and Genetic EngineeringRNA and protein synthesis mechanismsBacterial Genetics and Biotechnology