Fran Ding scite author profile

Clusters of regularly interspaced short palindromic repeats (CRISPRs) and cas (CRISPR-associated) operon form an RNA-based adaptive immune system against foreign genetic elements in prokaryotes1. Type I account for 95% of CRISPR systems, and have been utilized to control gene expression and cell fate2,3. During CRISPR RNA (crRNA)-guided interference, Cascade (CRISPR-associated complex for antiviral defense) facilitates crRNA-guided invasion of double-stranded DNA (dsDNA) for complementary base-pairing with the target DNA strand, while displacing the non-target strand, forming an R-loop4,5. Cas3 nuclease/helicase is recruited subsequently to degrade two DNA strands4,6,7. Protospacer adjacent motif (PAM) flanking target DNA is crucial for self vs. foreign discrimination4,8–16. Here we present a 2.45 Å crystal structure of E. coli Cascade bound to a foreign dsDNA target. The 5′-ATG PAM is recognized in double-stranded form, from the minor groove side, by three structural features in Cse1. The promiscuity inherent to minor groove DNA recognition rationalizes the puzzling observation that a single Cascade can respond to several distinct PAM sequences. Optimal PAM recognition coincides with a wedge insertion, initiating the directional target DNA strand unwinding for segmented base-pairing with crRNA. The non-target strand is guided along a parallel path 25 Å apart, and the R-loop structure is further stabilized by locking this strand behind Cse2 dimer. These observations provide the structure basis for understanding the PAM-dependent directional R-loop formation process17,18.

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Cas5d Protein Processes Pre-crRNA and Assembles into a Cascade-like Interference Complex in Subtype I-C/Dvulg CRISPR-Cas System

Nam

et al. 2012

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SUMMARY Clustered regularly interspaced short palindromic repeats (CRISPRs), together with an operon of CRISPR-associated (Cas) proteins, form an RNA-based prokaryotic immune system against exogenous genetic elements. Cas5 family proteins are found in several Type I CRISPR-Cas systems. Here we report the molecular function of Subtype I-C/Dvulg Cas5d from B. halodurans. We show that Cas5d cleaves pre-crRNA into unit length by recognizing both the hairpin structure and the 3′ single stranded sequence in the CRISPR repeat region. Cas5d structure reveals a ferredoxin domain-based architecture and a catalytic triad formed by Y46, K116 and H117 residues. We further show that after pre-crRNA processing, Cas5d assembles with crRNA, Csd1, and Csd2 proteins to form a multi-subunit interference complex similar to E. coli Cascade (CRISPR-associated complex for antiviral defense) in architecture. Our results suggest that formation of a crRNA-presenting Cascade-like complex is likely a common theme among Type I CRISPR subtypes.

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Double-stranded Endonuclease Activity in Bacillus halodurans Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)-associated Cas2 Protein

Nam

Ding

Haitjema

et al. 2012

Journal of Biological Chemistry

138

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Background: Cas2 is universally conserved and essential for new CRISPR spacer acquisition. Results: Bha_Cas2 uses a single metal ion to cleave dsDNA and is likely activated by a pH-dependent conformational change. A method to classify Cas2 into ssRNase and dsDNase is proposed. Conclusion: B. halodurans and T. thermophilus Cas2 are metal-dependent endonucleases. Significance: dsDNase activity is consistent with the direct involvement of Cas2 in new spacer acquisition.

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Craspase is a CRISPR RNA-guided, RNA-activated protease

Beljouw

Nam

et al. 2022

Science

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The Type III-E RNA-targeting effector complex (gRAMP/Cas7-11) is associated with a caspase-like protein (TPR-CHAT/Csx29) to form Craspase (CRISPR-guided caspase). Here we use cryo-electron microscopy snapshots of Craspase to explain its target RNA cleavage and protease activation mechanisms. Target-guide pairing extending into the 5′ region of the guide RNA displaces a gating loop in gRAMP, which triggers an extensive conformational relay that allosterically aligns the protease catalytic dyad and opens an amino acid sidechain-binding pocket. We further define Csx30 as the endogenous protein substrate that is site-specifically proteolyzed by RNA-activated Craspase. This protease activity is switched off by target RNA cleavage by gRAMP, and is not activated by RNA targets containing a matching protospacer flanking sequence. We thus conclude that Craspase is a target RNA-activated protease with self-regulatory capacity.

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Real-time observation of CRISPR spacer acquisition by Cas1–Cas2 integrase

Budhathoki

Xiao

Schuler

et al. 2020

Nat Struct Mol Biol

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Cas1 integrase associates with Cas2 to insert short DNA fragments into a CRISPR array, establishing nucleic acid memory in prokaryotes. Here we applied single-molecule FRET methods to the Enterococcus faecalis ( Efa ) Cas1–Cas2 system to establish a kinetic framework describing target-searching, integration, and post-synapsis events. Efa Cas1–Cas2 on its own is not able to find the CRISPR repeat in the CRISPR array; it only does so after prespacer loading. The leader sequence adjacent to the repeat further stabilizes Efa Cas1–Cas2 contacts, enabling leader-side integration and subsequent spacer-side integration. The resulting post-synaptic complex has a surprisingly short mean lifetime. Remarkably, transcription efficiently resolves the postsynaptic complex and we predict that this is a conserved mechanism that ensures efficient and directional spacer integration in many CRISPR systems. Overall, our study provides a complete model of spacer acquisition, which can be harnessed for DNA-based information storage and cell lineage tracing technologies.

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Fran Ding

Structural basis for promiscuous PAM recognition in type I–E Cascade from E. coli

Cas5d Protein Processes Pre-crRNA and Assembles into a Cascade-like Interference Complex in Subtype I-C/Dvulg CRISPR-Cas System

Double-stranded Endonuclease Activity in Bacillus halodurans Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)-associated Cas2 Protein

Craspase is a CRISPR RNA-guided, RNA-activated protease

Real-time observation of CRISPR spacer acquisition by Cas1–Cas2 integrase

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