Cas1 and Fen1 Display Equivalent Functions During Archaeal DNA Repair

Peter F. Stadler; Frank Hille; Julia Wörtz; Victoria Smith; Jörg Fallmann; Sabine König; Tharani Thuraisingam; Paul Walther; Henning Urlaub; Thorsten Allers; Anita Marchfelder

Cas1 and Fen1 Display Equivalent Functions During Archaeal DNA Repair

dc.contributor.author	Peter F. Stadler
dc.contributor.author	Frank Hille
dc.contributor.author	Julia Wörtz
dc.contributor.author	Victoria Smith
dc.contributor.author	Jörg Fallmann
dc.contributor.author	Sabine König
dc.contributor.author	Tharani Thuraisingam
dc.contributor.author	Paul Walther
dc.contributor.author	Henning Urlaub
dc.contributor.author	Peter F. Stadler
dc.contributor.author	Thorsten Allers
dc.contributor.author	Anita Marchfelder
dc.control.author	Sabine König
dc.control.author	Henning Urlaub
dc.control.author	Peter F. Stadler
dc.control.author	Peter F. Stadler
dc.control.author	Peter F. Stadler
dc.control.author	Peter F. Stadler
dc.control.author	Peter F. Stadler
dc.control.author	Peter F. Stadler
dc.date.accessioned	2025-06-14T06:35:54Z
dc.date.available	2025-06-14T06:35:54Z
dc.date.issued	2022-04-15
dc.description.abstract	<jats:p>CRISPR-Cas constitutes an adaptive prokaryotic defence system against invasive nucleic acids like viruses and plasmids. Beyond their role in immunity, CRISPR-Cas systems have been shown to closely interact with components of cellular DNA repair pathways, either by regulating their expression or via direct protein-protein contact and enzymatic activity. The integrase Cas1 is usually involved in the adaptation phase of CRISPR-Cas immunity but an additional role in cellular DNA repair pathways has been proposed previously. Here, we analysed the capacity of an archaeal Cas1 from <jats:italic>Haloferax volcanii</jats:italic> to act upon DNA damage induced by oxidative stress and found that a deletion of the <jats:italic>cas1</jats:italic> gene led to reduced survival rates following stress induction. In addition, our results indicate that Cas1 is directly involved in DNA repair as the enzymatically active site of the protein is crucial for growth under oxidative conditions. Based on biochemical assays, we propose a mechanism by which Cas1 plays a similar function to DNA repair protein Fen1 by cleaving branched intermediate structures. The present study broadens our understanding of the functional link between CRISPR-Cas immunity and DNA repair by demonstrating that Cas1 and Fen1 display equivalent roles during archaeal DNA damage repair.</jats:p>
dc.description.volume	13
dc.identifier.doi	10.3389/fmicb.2022.822304
dc.identifier.doi	10.60692/fv3rz-dtw23
dc.identifier.doi	10.60692/a2795-6mk50
dc.identifier.handle	11353/10.1666683
dc.identifier.handle	21.11116/0000-000B-2E63-3
dc.identifier.handle	21.11116/0000-000B-2E65-1
dc.identifier.handle	21.11116/0000-000B-2E66-0
dc.identifier.issn	1664-302X
dc.identifier.openaire	doi_dedup___
dc.identifier.pmc	PMC9051519
dc.identifier.pmid	35495653
dc.identifier.uri	https://ror.circle-u.eu/handle/123456789/412063
dc.openaire.affiliation	University of Vienna
dc.openaire.collaboration	1
dc.publisher	Frontiers Media SA
dc.rights	OPEN
dc.rights.license	CC BY
dc.source	Frontiers in Microbiology
dc.subject	CRISPR-Cas systems
dc.subject	Archaebakterien
dc.subject	Replication protein A
dc.subject	PROTEIN
dc.subject	Plasmid
dc.subject	Gene
dc.subject	Biochemistry
dc.subject	ACTIVATION
dc.subject	Clustered Regularly Interspaced Short Palindromic Repeats and CRISPR-associated proteins
dc.subject	106005 Bioinformatik
dc.subject	Cas1
dc.subject	Fen1
dc.subject	CRISPR-Cas
dc.subject	Haloferax volcanii
dc.subject	info:eu-repo/classification/ddc/610
dc.subject	info:eu-repo/classification/ddc/570
dc.subject	106022 Mikrobiologie
dc.subject	DNS-Reparatur
dc.subject	DNA glycosylase
dc.subject	Life Sciences
dc.subject	QR1-502
dc.subject	CRISPR
dc.subject	106022 Microbiology
dc.subject	106005 Bioinformatics
dc.subject	Cell biology
dc.subject	GENES
dc.subject	archaea
dc.subject	DNA repair
dc.subject	DNA-binding protein
dc.subject	DNA replication
dc.subject	Microbiology
dc.subject	Biochemistry, Genetics and Molecular Biology
dc.subject	Genetics
dc.subject	CRISPR Systems
dc.subject	Molecular Biology
dc.subject	Biology
dc.subject	CRISPR/Cas-Methode
dc.subject	COMPLEX
dc.subject	ACQUISITION
dc.subject	Bacterial Physiology and Genetics
dc.subject	DNA
dc.subject	Archaea
dc.subject	Molecular Mechanisms of DNA Damage Response
dc.subject	Nucleic acid
dc.subject	FOS: Biological sciences
dc.subject	RNA
dc.subject	DNA damage
dc.subject	Transcription factor
dc.subject	SYSTEM
dc.subject.fos	0301 basic medicine
dc.subject.fos	03 medical and health sciences
dc.title	Cas1 and Fen1 Display Equivalent Functions During Archaeal DNA Repair
dc.type	publication

Collections

Bibliography

Simple item page

Cas1 and Fen1 Display Equivalent Functions During Archaeal DNA Repair

Files

Collections

The alliance of 9 European Universities