Regulation of the RNA and DNA nuclease activities required for Pyrococcus furiosus Type III-B CRISPR–Cas immunity
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Regulation of the RNA and DNA nuclease activities required for Pyrococcus furiosus Type III-B CRISPR–Cas immunity
Authors
Keywords
-
Journal
NUCLEIC ACIDS RESEARCH
Volume 48, Issue 8, Pages 4418-4434
Publisher
Oxford University Press (OUP)
Online
2020-03-20
DOI
10.1093/nar/gkaa176
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Non-specific degradation of transcripts promotes plasmid clearance during type III-A CRISPR–Cas immunity
- (2019) Jakob T. Rostøl et al. Nature Microbiology
- Coupling of ssRNA cleavage with DNase activity in type III-A CRISPR-Csm revealed by cryo-EM and biochemistry
- (2019) Minghui Guo et al. CELL RESEARCH
- Target sequence requirements of a type III-B CRISPR-Cas immune system
- (2019) Kaitlin Johnson et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- A Type III CRISPR Ancillary Ribonuclease Degrades Its Cyclic Oligoadenylate Activator
- (2019) Januka S. Athukoralage et al. JOURNAL OF MOLECULAR BIOLOGY
- Regulation of cyclic oligoadenylate synthesis by the S. epidermidis Cas10-Csm complex
- (2019) Mohamed Nasef et al. RNA
- CRISPR-Cas III-A Csm6 CARF Domain Is a Ring Nuclease Triggering Stepwise cA4 Cleavage with ApA>p Formation Terminating RNase Activity
- (2019) Ning Jia et al. MOLECULAR CELL
- Second Messenger cA4 Formation within the Composite Csm1 Palm Pocket of Type III-A CRISPR-Cas Csm Complex and Its Release Path
- (2019) Ning Jia et al. MOLECULAR CELL
- Cyclic oligoadenylate signalling mediates Mycobacterium tuberculosis CRISPR defence
- (2019) Sabine Grüschow et al. NUCLEIC ACIDS RESEARCH
- Structure of Csx1-cOA4 complex reveals the basis of RNA decay in Type III-B CRISPR-Cas
- (2019) Rafael Molina et al. Nature Communications
- Evolutionary classification of CRISPR–Cas systems: a burst of class 2 and derived variants
- (2019) Kira S. Makarova et al. NATURE REVIEWS MICROBIOLOGY
- The Biology of CRISPR-Cas: Backward and Forward
- (2018) Frank Hille et al. CELL
- Cas4 Nucleases Define the PAM, Length, and Orientation of DNA Fragments Integrated at CRISPR Loci
- (2018) Masami Shiimori et al. MOLECULAR CELL
- The ribonuclease activity of Csm6 is required for anti-plasmid immunity by Type III-A CRISPR-Cas systems
- (2018) Kawanda Foster et al. RNA Biology
- Control of cyclic oligoadenylate synthesis in a type III CRISPR system
- (2018) Christophe Rouillon et al. eLife
- Ring nucleases deactivate type III CRISPR ribonucleases by degrading cyclic oligoadenylate
- (2018) Januka S. Athukoralage et al. NATURE
- Structure Studies of the CRISPR-Csm Complex Reveal Mechanism of Co-transcriptional Interference
- (2018) Lilan You et al. CELL
- CRISPR RNA-guided DNA cleavage by reconstituted Type I-A immune effector complexes
- (2018) Sonali Majumdar et al. EXTREMOPHILES
- Type III-A CRISPR-Cas Csm Complexes: Assembly, Periodic RNA Cleavage, DNase Activity Regulation, and Autoimmunity
- (2018) Ning Jia et al. MOLECULAR CELL
- Dynamics of Cas10 Govern Discrimination between Self and Non-self in Type III CRISPR-Cas Immunity
- (2018) Ling Wang et al. MOLECULAR CELL
- Type III CRISPR–Cas systems produce cyclic oligoadenylate second messengers
- (2017) Ole Niewoehner et al. NATURE
- Role of free DNA ends and protospacer adjacent motifs for CRISPR DNA uptake in Pyrococcus furiosus
- (2017) Masami Shiimori et al. NUCLEIC ACIDS RESEARCH
- A cyclic oligonucleotide signaling pathway in type III CRISPR-Cas systems
- (2017) Migle Kazlauskiene et al. SCIENCE
- Type III CRISPR-Cas Immunity: Major Differences Brushed Aside
- (2017) Gintautas Tamulaitis et al. TRENDS IN MICROBIOLOGY
- RNA and DNA Targeting by a Reconstituted Thermus thermophilus Type III-A CRISPR-Cas System
- (2017) Tina Y. Liu et al. PLoS One
- Programmable type III-A CRISPR-Cas DNA targeting modules
- (2017) H. Travis Ichikawa et al. PLoS One
- Degradation of Phage Transcripts by CRISPR-Associated RNases Enables Type III CRISPR-Cas Immunity
- (2016) Wenyan Jiang et al. CELL
- Target DNA recognition and cleavage by a reconstituted Type I-G CRISPR-Cas immune effector complex
- (2016) Sonali Majumdar et al. EXTREMOPHILES
- RNA-activated DNA cleavage by the Type III-B CRISPR–Cas effector complex
- (2016) Michael A. Estrella et al. GENES & DEVELOPMENT
- Bipartite recognition of target RNAs activates DNA cleavage by the Type III-B CRISPR–Cas system
- (2016) Joshua R. Elmore et al. GENES & DEVELOPMENT
- Identification and functional study of type III-A CRISPR-Cas systems in clinical isolates of Staphylococcus aureus
- (2016) Linyan Cao et al. INTERNATIONAL JOURNAL OF MEDICAL MICROBIOLOGY
- Spatiotemporal Control of Type III-A CRISPR-Cas Immunity: Coupling DNA Degradation with the Target RNA Recognition
- (2016) Migle Kazlauskiene et al. MOLECULAR CELL
- Multiple nucleic acid cleavage modes in divergent type III CRISPR systems
- (2016) Jing Zhang et al. NUCLEIC ACIDS RESEARCH
- Structural basis for the endoribonuclease activity of the type III-A CRISPR-associated protein Csm6
- (2016) Ole Niewoehner et al. RNA
- C2c2 is a single-component programmable RNA-guided RNA-targeting CRISPR effector
- (2016) Omar O. Abudayyeh et al. SCIENCE
- Co-transcriptional DNA and RNA Cleavage during Type III CRISPR-Cas Immunity
- (2015) Poulami Samai et al. CELL
- Cpf1 Is a Single RNA-Guided Endonuclease of a Class 2 CRISPR-Cas System
- (2015) Bernd Zetsche et al. CELL
- Crystal Structure of the CRISPR-Cas RNA Silencing Cmr Complex Bound to a Target Analog
- (2015) Takuo Osawa et al. MOLECULAR CELL
- An updated evolutionary classification of CRISPR–Cas systems
- (2015) Kira S. Makarova et al. NATURE REVIEWS MICROBIOLOGY
- Three CRISPR-Cas immune effector complexes coexist inPyrococcus furiosus
- (2015) Sonali Majumdar et al. RNA
- The CRISPR-associated Csx1 protein ofPyrococcus furiosusis an adenosine-specific endoribonuclease
- (2015) Nolan F. Sheppard et al. RNA
- Structures of the CRISPR-Cmr complex reveal mode of RNA target positioning
- (2015) D. W. Taylor et al. SCIENCE
- The RNA- and DNA-targeting CRISPR–Cas immune systems ofPyrococcus furiosus
- (2015) Rebecca M. Terns et al. BIOCHEMICAL SOCIETY TRANSACTIONS
- Target RNA capture and cleavage by the Cmr type III-B CRISPR–Cas effector complex
- (2014) Caryn R. Hale et al. GENES & DEVELOPMENT
- Structural Model of a CRISPR RNA-Silencing Complex Reveals the RNA-Target Cleavage Activity in Cmr4
- (2014) Christian Benda et al. MOLECULAR CELL
- RNA Targeting by the Type III-A CRISPR-Cas Csm Complex of Thermus thermophilus
- (2014) Raymond H.J. Staals et al. MOLECULAR CELL
- Programmable RNA Shredding by the Type III-A CRISPR-Cas System of Streptococcus thermophilus
- (2014) Gintautas Tamulaitis et al. MOLECULAR CELL
- Conditional tolerance of temperate phages via transcription-dependent CRISPR-Cas targeting
- (2014) Gregory W. Goldberg et al. NATURE
- Essential Structural and Functional Roles of the Cmr4 Subunit in RNA Cleavage by the Cmr CRISPR-Cas Complex
- (2014) Nancy F. Ramia et al. Cell Reports
- CARF and WYL domains: ligand-binding regulators of prokaryotic defense systems
- (2014) Kira S. Makarova et al. Frontiers in Genetics
- Comprehensive analysis of the HEPN superfamily: identification of novel roles in intra-genomic conflicts, defense, pathogenesis and RNA processing
- (2013) Vivek Anantharaman et al. Biology Direct
- Genetic Characterization of Antiplasmid Immunity through a Type III-A CRISPR-Cas System
- (2013) A. Hatoum-Aslan et al. JOURNAL OF BACTERIOLOGY
- Structure of an RNA Silencing Complex of the CRISPR-Cas Immune System
- (2013) Michael Spilman et al. MOLECULAR CELL
- Structure and Activity of the RNA-Targeting Type III-B CRISPR-Cas Complex of Thermus thermophilus
- (2013) Raymond H.J. Staals et al. MOLECULAR CELL
- Structure of the CRISPR Interference Complex CSM Reveals Key Similarities with Cascade
- (2013) Christophe Rouillon et al. MOLECULAR CELL
- A novel interference mechanism by a type IIIB CRISPR-Cmr module inSulfolobus
- (2013) Ling Deng et al. MOLECULAR MICROBIOLOGY
- Crystal structure and nucleic acid-binding activity of the CRISPR-associated protein Csx1 ofPyrococcus furiosus
- (2013) Young Kwan Kim et al. PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS
- Structure of the Cmr2-Cmr3 Subcomplex of the Cmr RNA Silencing Complex
- (2013) Yaming Shao et al. STRUCTURE
- Essential Features and Rational Design of CRISPR RNAs that Function with the Cas RAMP Module Complex to Cleave RNAs
- (2012) Caryn R. Hale et al. MOLECULAR CELL
- Structure of the Cmr2 Subunit of the CRISPR-Cas RNA Silencing Complex
- (2012) Alexis I. Cocozaki et al. STRUCTURE
- Natural Competence in the Hyperthermophilic ArchaeonPyrococcus furiosusFacilitates Genetic Manipulation: Construction of Markerless Deletions of Genes Encoding the Two Cytoplasmic Hydrogenases
- (2011) Gina L. Lipscomb et al. APPLIED AND ENVIRONMENTAL MICROBIOLOGY
- The CRISPR/Cas bacterial immune system cleaves bacteriophage and plasmid DNA
- (2010) Josiane E. Garneau et al. NATURE
- Self versus non-self discrimination during CRISPR RNA-directed immunity
- (2010) Luciano A. Marraffini et al. NATURE
- RNA-Guided RNA Cleavage by a CRISPR RNA-Cas Protein Complex
- (2009) Caryn R. Hale et al. CELL
- CRISPR families of the crenarchaeal genus Sulfolobus: bidirectional transcription and dynamic properties
- (2009) Reidun K. Lillestøl et al. MOLECULAR MICROBIOLOGY
- Cas6 is an endoribonuclease that generates guide RNAs for invader defense in prokaryotes
- (2008) J. Carte et al. GENES & DEVELOPMENT
- Prokaryotic silencing (psi)RNAs in Pyrococcus furiosus
- (2008) C. Hale et al. RNA
- Small CRISPR RNAs Guide Antiviral Defense in Prokaryotes
- (2008) S. J. J. Brouns et al. SCIENCE
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExploreFind the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
Search