Structural variation of types IV-A1- and IV-A3-mediated CRISPR interference

R. Čepaitė; N. Klein; A. Mikšys; S. Camara-Wilpert; V. Ragožius; F. Benz; A. Skorupskaitė; H. Becker; G. Žvejytė; N. Steube; G. K.A. Hochberg; L. Randau; R. Pinilla-Redondo; L. Malinauskaitė; P. Pausch

doi:10.1038/s41467-024-53778-1

Structural variation of types IV-A1- and IV-A3-mediated CRISPR interference

R. Čepaitė, N. Klein, A. Mikšys, S. Camara-Wilpert, V. Ragožius, F. Benz, A. Skorupskaitė, H. Becker, G. Žvejytė, N. Steube, G. K.A. Hochberg, L. Randau, R. Pinilla-Redondo, L. Malinauskaitė^*, P. Pausch

^*Corresponding author for this work

Microbiology

Research output: Contribution to journal › Journal article › Research › peer-review

3 Citations (Scopus)

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Abstract

CRISPR-Cas mediated DNA-interference typically relies on sequence-specific binding and nucleolytic degradation of foreign genetic material. Type IV-A CRISPR-Cas systems diverge from this general mechanism, using a nuclease-independent interference pathway to suppress gene expression for gene regulation and plasmid competition. To understand how the type IV-A system associated effector complex achieves this interference, we determine cryo-EM structures of two evolutionarily distinct type IV-A complexes (types IV-A1 and IV-A3) bound to cognate DNA-targets in the presence and absence of the type IV-A signature DinG effector helicase. The structures reveal how the effector complexes recognize the protospacer adjacent motif and target-strand DNA to form an R-loop structure. Additionally, we reveal differences between types IV-A1 and IV-A3 in DNA interactions and structural motifs that allow for in trans recruitment of DinG. Our study provides a detailed view of type IV-A mediated DNA-interference and presents a structural foundation for engineering type IV-A-based genome editing tools.

Original language	English
Article number	9306
Journal	Nature Communications
Volume	15
Issue number	1
Number of pages	18
ISSN	2041-1723
DOIs	https://doi.org/10.1038/s41467-024-53778-1
Publication status	Published - 2024

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© The Author(s) 2024.

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Čepaitė, R., Klein, N., Mikšys, A., Camara-Wilpert, S., Ragožius, V., Benz, F., Skorupskaitė, A., Becker, H., Žvejytė, G., Steube, N., Hochberg, G. K. A., Randau, L., Pinilla-Redondo, R., Malinauskaitė, L., & Pausch, P. (2024). Structural variation of types IV-A1- and IV-A3-mediated CRISPR interference. Nature Communications, 15(1), Article 9306. https://doi.org/10.1038/s41467-024-53778-1

Čepaitė, R, Klein, N, Mikšys, A, Camara-Wilpert, S, Ragožius, V, Benz, F, Skorupskaitė, A, Becker, H, Žvejytė, G, Steube, N, Hochberg, GKA, Randau, L, Pinilla-Redondo, R, Malinauskaitė, L & Pausch, P 2024, 'Structural variation of types IV-A1- and IV-A3-mediated CRISPR interference', Nature Communications, vol. 15, no. 1, 9306. https://doi.org/10.1038/s41467-024-53778-1

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title = "Structural variation of types IV-A1- and IV-A3-mediated CRISPR interference",

abstract = "CRISPR-Cas mediated DNA-interference typically relies on sequence-specific binding and nucleolytic degradation of foreign genetic material. Type IV-A CRISPR-Cas systems diverge from this general mechanism, using a nuclease-independent interference pathway to suppress gene expression for gene regulation and plasmid competition. To understand how the type IV-A system associated effector complex achieves this interference, we determine cryo-EM structures of two evolutionarily distinct type IV-A complexes (types IV-A1 and IV-A3) bound to cognate DNA-targets in the presence and absence of the type IV-A signature DinG effector helicase. The structures reveal how the effector complexes recognize the protospacer adjacent motif and target-strand DNA to form an R-loop structure. Additionally, we reveal differences between types IV-A1 and IV-A3 in DNA interactions and structural motifs that allow for in trans recruitment of DinG. Our study provides a detailed view of type IV-A mediated DNA-interference and presents a structural foundation for engineering type IV-A-based genome editing tools.",

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AU - Ragožius, V.

AU - Benz, F.

AU - Skorupskaitė, A.

AU - Becker, H.

AU - Žvejytė, G.

AU - Steube, N.

AU - Hochberg, G. K.A.

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AU - Malinauskaitė, L.

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AB - CRISPR-Cas mediated DNA-interference typically relies on sequence-specific binding and nucleolytic degradation of foreign genetic material. Type IV-A CRISPR-Cas systems diverge from this general mechanism, using a nuclease-independent interference pathway to suppress gene expression for gene regulation and plasmid competition. To understand how the type IV-A system associated effector complex achieves this interference, we determine cryo-EM structures of two evolutionarily distinct type IV-A complexes (types IV-A1 and IV-A3) bound to cognate DNA-targets in the presence and absence of the type IV-A signature DinG effector helicase. The structures reveal how the effector complexes recognize the protospacer adjacent motif and target-strand DNA to form an R-loop structure. Additionally, we reveal differences between types IV-A1 and IV-A3 in DNA interactions and structural motifs that allow for in trans recruitment of DinG. Our study provides a detailed view of type IV-A mediated DNA-interference and presents a structural foundation for engineering type IV-A-based genome editing tools.

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