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CasDinG is a 5′-3′ dsDNA and RNA/DNA helicase with three accessory domains essential for type IV CRISPR immunity

Hannah Domgaard, Christian Cahoon, Matthew J. Armbrust, Olivine Redman, Alivia Jolley, Aaron Thomas, Ryan N. Jackson

2023Nucleic Acids Research20 citationsDOIOpen Access PDF

Abstract

CRISPR-associated DinG protein (CasDinG) is essential to type IV-A CRISPR function. Here, we demonstrate that CasDinG from Pseudomonas aeruginosa strain 83 is an ATP-dependent 5'-3' DNA translocase that unwinds double-stranded (ds)DNA and RNA/DNA hybrids. The crystal structure of CasDinG reveals a superfamily 2 helicase core of two RecA-like domains with three accessory domains (N-terminal, arch, and vestigial FeS). To examine the in vivo function of these domains, we identified the preferred PAM sequence for the type IV-A system (5'-GNAWN-3' on the 5'-side of the target) with a plasmid library and performed plasmid clearance assays with domain deletion mutants. Plasmid clearance assays demonstrated that all three domains are essential for type IV-A immunity. Protein expression and biochemical assays suggested the vFeS domain is needed for protein stability and the arch for helicase activity. However, deletion of the N-terminal domain did not impair ATPase, ssDNA binding, or helicase activities, indicating a role distinct from canonical helicase activities that structure prediction tools suggest involves interaction with dsDNA. This work demonstrates CasDinG helicase activity is essential for type IV-A CRISPR immunity as well as the yet undetermined activity of the CasDinG N-terminal domain.

Topics & Concepts

BiologyCRISPRHelicaseDNAGeneticsImmunityRNARNA Helicase AVirologyComputational biologyMolecular biologyGeneImmune systemCRISPR and Genetic EngineeringCytomegalovirus and herpesvirus researchRNA and protein synthesis mechanisms