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Synergy and regulation of antiphage systems: toward the existence of a bacterial immune system?

CURRENT OPINION IN MICROBIOLOGY (2023)

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Article Biochemistry & Molecular Biology

Cleavage of viral DNA by restriction endonucleases stimulates the type II CRISPR-Cas immune response

Pascal Maguin et al.

Summary: Prokaryotic organisms have developed various defense systems against phages, and this study explores the interaction between two prominent systems: restriction-modification and CRISPR. It is found that restriction endonucleases provide a short-term defense, while CRISPR mediates a robust immune response against the phage through spacer sequences acquired from the cleavage site.

MOLECULAR CELL (2022)

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Article Microbiology

Phages and their satellites encode hotspots of antiviral systems

Francois Rousset et al.

Summary: Bacteria have various genetic systems to defend against viral infection, including those within prophages. Phage satellites pose additional pressures on phages by hijacking viral elements. This study found that E. coli P2-like phages and their P4-like satellites carry genetic hotspots with anti-phage systems. These hotspots participate in inter-viral competition and shape dynamics between the bacterial host, P2-like phages, and P4-like satellites. Importantly, the anti-phage activity of satellites can benefit the helper phage during competition, turning a parasitic relationship into a mutualistic one.

CELL HOST & MICROBE (2022)

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Article Biochemistry & Molecular Biology

Identification and characterization of the WYL BrxR protein and its gene as separable regulatory elements of a BREX phage restriction system

Yvette A. Luyten et al.

Summary: In this study, a previously uncharacterized gene in the BREX operon, BrxR, was found to play a role in restriction and potentially in the regulation of phage activity and horizontal transfer.

NUCLEIC ACIDS RESEARCH (2022)

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Article Biochemistry & Molecular Biology

A mobile restriction-modification system provides phage defence and resolves an epigenetic conflict with an antagonistic endonuclease

Nils Birkholz et al.

Summary: Epigenetic DNA methylation plays a crucial role in bacteria, influencing gene expression and protecting host DNA. The interaction between restriction-modification systems and restriction endonucleases depends on DNA methylation. However, the impact of mobile defence systems on pre-existing host defences is not well understood. This study reveals an epigenetic conflict between an RM system and a methylation-dependent REase in a plant pathogen, highlighting the selfishness and intracellular competition of different defence mechanisms.

NUCLEIC ACIDS RESEARCH (2022)

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Article Biochemistry & Molecular Biology

Control of bacterial immune signaling by a WYL domain transcription factor

Chelsea L. Blankenchip et al.

Summary: Bacteria utilize diverse immune systems to defend against viruses, with the transcription factor CapW associated with regulating the CBASS bacterial immune system response. CapW represses CBASS gene expression in uninfected cells and its activation is not necessary for strong anti-phage activity, suggesting it may play a role in response to signals other than phage infection. CapW is part of a family of universal defense signaling proteins, similar to the BrxR transcription factor associated with the BREX anti-phage system.

NUCLEIC ACIDS RESEARCH (2022)

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Article Biochemistry & Molecular Biology

A widespread family of WYL-domain transcriptional regulators co-localizes with diverse phage defence systems and islands

David M. Picton et al.

Summary: This study identifies a novel transcriptional regulator, BrxR, and investigates its repressor role in bacterial phage defense systems. Structural analysis and bioinformatic analysis reveal the widespread presence of BrxR in bacteria and its co-localization with various phage defense systems.

NUCLEIC ACIDS RESEARCH (2022)

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Editorial Material Biochemistry & Molecular Biology

CRISPR-Cas and restrictionmodification team up to achieve long-term immunity

Jean Cury et al.

Summary: Bacteria have various defense systems against phages, and two of the most common systems, CRISPR-Cas and restriction-modification, interact to enhance bacterial defense in the long term.

TRENDS IN MICROBIOLOGY (2022)

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Systematic and quantitative view of the antiviral arsenal of prokaryotes

Florian Tesson et al.

Summary: Bacteria and archaea have developed multiple antiviral mechanisms. Researchers have introduced a tool called DefenseFinder that can automatically detect known antiviral systems in prokaryotic genomes, and have shown that variations in antiviral strategies correlate with genome size, viral threat, and lifestyle traits.

NATURE COMMUNICATIONS (2022)

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Article Virology

Cyclic Nucleotide Signaling in Phage Defense and Counter-Defense

Januka S. Athukoralage et al.

Summary: Recent advances in our understanding of prokaryotic antiphage defense mechanisms have revealed multiple new cyclic nucleotide signaling molecules that play crucial roles in switching infected cells into an antiviral state.

ANNUAL REVIEW OF VIROLOGY (2022)

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Article Microbiology

Phage-host coevolution in natural populations

Damien Piel et al.

Summary: This study investigates the coevolution between bacteriophages and their bacterial hosts, revealing the changes in resistance and counter-resistance mechanisms. The research finds that the adaptation of phages to local hosts is influenced by their ability to infect closely related bacteria and strain-specific defenses. The study further demonstrates the role of genetic exchanges and mobile genetic elements in the evolution of bacterial defenses and phage counter-defenses.

NATURE MICROBIOLOGY (2022)

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Article Microbiology

An expanded arsenal of immune systems that protect bacteria from phages

Adi Millman et al.

Summary: This study reports the discovery of 21 bacterial defense systems against phages. These systems contain domains involved in eukaryotic antiviral immunity and are widely distributed in microbial genomes. These findings contribute to our understanding of the defense mechanisms bacteria use against phage infection.

CELL HOST & MICROBE (2022)

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Article Genetics & Heredity

The Vibrio cholerae Seventh Pandemic Islands act in tandem to defend against a circulating phage

Brendan J. O'Hara et al.

Summary: This study isolated a circulating phage from a cholera patient stool sample and demonstrated that elements in both VSP-I and VSP-II inhibited the propagation of this phage in its native host, providing direct evidence for the role of these genomic islands in phage defense. Furthermore, the research showed that these defense systems are regulated by quorum sensing and are only active at certain cell densities.

PLOS GENETICS (2022)

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Article Microbiology

A functional selection reveals previously undetected anti-phage defence systems in the E. coli pangenome

Christopher N. Vassallo et al.

Summary: The study identified numerous new candidate defense systems in E. coli using an experimental selection scheme, demonstrating that intact prophages and mobile genetic elements are primary reservoirs and distributors of defense systems.

NATURE MICROBIOLOGY (2022)

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Article Microbiology

The Rcs stress response inversely controls surface and CRISPR-Cas adaptive immunity to discriminate plasmids and phages

Leah M. Smith et al.

Summary: Bacteria have multiple immune mechanisms against phages and foreign genetic elements. The study found that pathways like the Rcs pathway can simultaneously regulate innate and adaptive CRISPR-Cas immunity to suppress phage infection and facilitate plasmid acquisition.

NATURE MICROBIOLOGY (2021)

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Article Biochemistry & Molecular Biology

Calcium-responsive kinase LadS modulates type I-F CRISPR-Cas adaptive immunity

Chuan-min Zhou et al.

Summary: Calcium positively regulates the transcription of CRISPR-Cas system via LadS, while RsmA functions as a post-transcriptional regulator; the modulation of CRISPR-Cas system by calcium depends on LadS and RsmA, highlighting their previously unrecognized role in sensing calcium.

BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2021)

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Article Biochemistry & Molecular Biology

The phage defence island of a multidrug resistant plasmid uses both BREX and type IV restriction for complementary protection from viruses

David M. L. Picton et al.

Summary: Bacteria have evolved various systems to defend against bacteriophages and mobile genetic elements, with genes often clustered in defense islands. Functional characterization of a defense island in a multidrug resistant plasmid of E. fergusonii has revealed a novel GmrSD-family type IV DNA modification-dependent restriction enzyme, BrxU, that provides robust phage protection. The study also presents the first structure of BrxU and demonstrates its ability to cleave a range of modified DNAs through a multi-step reaction cycle.

NUCLEIC ACIDS RESEARCH (2021)

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Article Multidisciplinary Sciences

Rapid evolutionary turnover of mobile genetic elements drives bacterial resistance to phages

Fatima Aysha Hussain et al.

Summary: In marine Vibrio, phage resistance evolves rapidly and leads to differential susceptibility among bacterial strains. This resistance is cumulative, with each bacterial genome carrying multiple defense elements. The fast evolution of these elements decouples phage resistance from other genomic features.

SCIENCE (2021)

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Article Multidisciplinary Sciences

A histidine kinase and a response regulator provide phage resistance to Marinomonas mediterranea via CRISPR-Cas regulation

Patricia Lucas-Elio et al.

Summary: This study reveals that Marinomonas mediterranea MMB-1 possesses two CRISPR-Cas systems that are controlled by the histidine kinase PpoS and a response regulator PpoR, with similarities to global regulators BarA/UvrY. RNA-Seq analyses show the involvement of these genetic elements in a regulatory cascade, and mutants in PpoS and PpoR display increased sensitivity to phages, indicating the important role of regulation by these proteins in phage defense.

SCIENTIFIC REPORTS (2021)

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Regulator-dependent temporal dynamics of a restriction-modification system's gene expression upon entering new host cells: single-cell and population studies

Alessandro Negri et al.

Summary: Restriction-modification (R-M) systems are a common defense mechanism in bacteria and archaea against invasive DNAs, utilizing restriction endonucleases (REase) and modification methyltransferases (MTase) to protect the host genome. Studies show that a controller (C) protein can delay the production of REase, reducing the early damage to the host genome.

NUCLEIC ACIDS RESEARCH (2021)

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Article Biochemical Research Methods

SorTn-seq: a high-throughput functional genomics approach to discovering regulators of bacterial gene expression

Leah M. Smith et al.

Summary: This protocol describes a high-throughput sequencing approach called 'SorTn-seq' for identifying regulators of bacterial gene expression through transposon mutagenesis and fluorescence-activated cell sorting. The method enables efficient screening of mutants with altered gene expression and can be completed in approximately 1-2 weeks with basic microbiology skills and flow cytometry experience.

NATURE PROTOCOLS (2021)

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Article Biochemistry & Molecular Biology

The Rsm (Csr) post-transcriptional regulatory pathway coordinately controls multiple CRISPR-Cas immune systems

Aroa Rey Campa et al.

Summary: Studies have shown that the Rsm/Csr pathway plays a key role in regulating the expression of multiple CRISPR-Cas systems in Serratia, allowing modulation of adaptive immunity through coregulation of CRISPR-Cas and flagella.

NUCLEIC ACIDS RESEARCH (2021)

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Review Microbiology

The pan-immune system of bacteria: antiviral defence as a community resource

Aude Bernheim et al.

NATURE REVIEWS MICROBIOLOGY (2020)

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Article Multidisciplinary Sciences

An anti-CRISPR viral ring nuclease subverts type III CRISPR immunity

Januka S. Athukoralage et al.

NATURE (2020)

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Article Microbiology

Bacterial alginate regulators and phage homologs repress CRISPR-Cas immunity

Adair L. Borges et al.

NATURE MICROBIOLOGY (2020)

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Phage T7 DNA mimic protein Ocr is a potent inhibitor of BREX defence

Artem Isaev et al.

NUCLEIC ACIDS RESEARCH (2020)

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Article Virology

Abortive Infection: Bacterial Suicide as an Antiviral Immune Strategy

Anna Lopatina et al.

ANNUAL REVIEW OF VIROLOGY, VOL 7, 2020 (2020)

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Evolutionary Ecology and Interplay of Prokaryotic Innate and Adaptive Immune Systems

Tatiana Dimitriu et al.

CURRENT BIOLOGY (2020)

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Diverse enzymatic activities mediate antiviral immunity in prokaryotes

Linyi Gao et al.

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Bacterial Retrons Function In Anti-Phage Defense

Adi Millman et al.

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GalK limits type I-F CRISPR-Cas expression in a CRP-dependent manner

Hannah G. Hampton et al.

FEMS MICROBIOLOGY LETTERS (2019)

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DISARM is a widespread bacterial defence system with broad anti-phage activities

Gal Ofir et al.

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The WYL Domain of the PIF1 Helicase from the Thermophilic Bacterium &ITThermotoga elfii&IT is an Accessory Single-Stranded DNA Binding Module

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Systematic discovery of antiphage defense systems in the microbial pangenome

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Phage-host population dynamics promotes prophage acquisition in bacteria with innate immunity

Maros Pleska et al.

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Ring nucleases deactivate type III CRISPR ribonucleases by degrading cyclic oligoadenylate

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Quorum sensing controls the Pseudomonas aeruginosa CRISPR-Cas adaptive immune system

Nina M. Hoyland-Kroghsbo et al.

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Type III CRISPR-Cas systems produce cyclic oligoadenylate second messengers

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A cyclic oligonucleotide signaling pathway in type III CRISPR-Cas systems

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Type III CRISPR-Cas systems can provide redundancy to counteract viral escape from type I systems

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Transcriptome analysis of Sulfolobus solfataricus infected with two related fuselloviruses reveals novel insights into the regulation of CRISPR-Cas system

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Covalent Modification of Bacteriophage T4 DNA Inhibits CRISPR-Cas9

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BREX is a novel phage resistance system widespread in microbial genomes

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Adaptation in bacterial CRISPR-Cas immunity can be driven by defective phages

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