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van Beljouw, S.P.B. (author)This dissertation provides an experimental and conceptual characterization of Craspase, a CRISPR-controlled protease. The array of functionalities inherent to Craspase — including precise protein cleavage, guided RNA recognition, and self-regulatory capabilities — highlights the complexity that can emerge from the endless bacterium-virus...doctoral thesis 2024
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van Beljouw, S.P.B. (author), Brouns, S.J.J. (author)With the discovery of CRISPR-controlled proteases, CRISPR–Cas has moved beyond mere nucleic acid targeting into the territory of targeted protein cleavage. Here, we review the understanding of Craspase, the best-studied member of the growing CRISPR RNA-guided protease family. We recollect the original bioinformatic prediction and early...review 2024
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van Beljouw, S.P.B. (author), van Eijkeren-Haagsma, A.C. (author), Kalogeropoulos, Konstantinos (author), Pabst, Martin (author), Brouns, S.J.J. (author)The Craspase CRISPR-Cas effector consists of the RNA-guided ribonuclease gRAMP and the protease TPR-CHAT, coupling target RNA recognition to protease activation. The natural substrate of Craspase is Csx30, a protein cleaved in two fragments that subsequently activates downstream antiviral pathways. Here, we determined the protease substrate...journal article 2024
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Mahler, M.S. (author), Martins Costa, A.R. (author), van Beljouw, S.P.B. (author), Fineran, Peter C. (author), Brouns, S.J.J. (author)In recent years, bacteriophage research has been boosted by a rising interest in using phage therapy to treat antibiotic-resistant bacterial infections. In addition, there is a desire to use phages and their unique proteins for specific biocontrol applications and diagnostics. However, the ability to manipulate phage genomes to understand and...review 2023
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Hu, Chunyi (author), van Beljouw, S.P.B. (author), Nam, Ki Hyun (author), Schuler, Gabriel (author), Rodríguez Molina, A. (author), van Eijkeren-Haagsma, A.C. (author), Valk, M. (author), Pabst, Martin (author), Brouns, S.J.J. (author)The CRISPR-Cas 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...journal article 2022
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van Beljouw, S.P.B. (author), Sanders, J.A. (author), Rodríguez Molina, A. (author), Brouns, S.J.J. (author)CRISPR–Cas is a widespread adaptive immune system in bacteria and archaea that protects against viral infection by targeting specific invading nucleic acid sequences. Whereas some CRISPR–Cas systems sense and cleave viral DNA, type III and type VI CRISPR–Cas systems sense RNA that results from viral transcription and perhaps invasion by RNA...review 2022
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van Beljouw, S.P.B. (author), van Eijkeren-Haagsma, A.C. (author), Rodriguez Molina, A. (author), van den Berg, D.F. (author), Vink, J.N.A. (author), Brouns, S.J.J. (author)Type III CRISPR-Cas immunity is widespread in prokaryotes and is generally mediated by multisubunit effector complexes. These complexes recognize complementary viral transcripts and can activate ancillary immune proteins. Here, we describe a type III-E effector from Candidatus “Scalindua brodae” (Sb-gRAMP), which is natively encoded by a...journal article 2021