Diversity and plasticity of self recognition during the development of multiple sclerosis.

SummaryInheritable bacterial defence systems against phage infection and foreign DNA, termed CRISPR (clustered regularly interspaced short palindromic repeats), consist of cas protein genes and repeat arrays interspaced with sequences originating from invaders. The Cas proteins together with processed small spacer-repeat transcripts (crRNAs) cause degradation of penetrated foreign DNA by unknown mechanisms. Here, we have characterized previously unidentified promoters of the Escherichia coli CRISPR arrays and cas protein genes. Transcription of precursor crRNA is directed by a promoter located within the CRISPR leader. A second promoter, directing cas gene transcription, is located upstream of the genes encoding proteins of the Cascade complex. Furthermore, we demonstrate that the DNA-binding protein H-NS is involved in silencing the CRISPR-cas promoters, resulting in cryptic Cas protein expression. Our results demonstrate an active involvement of H-NS in the induction of the CRISPRcas system and suggest a potential link between two prokaryotic defence systems against foreign DNA.

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Detection and characterization of spacer integration intermediates in type I-E CRISPR–Cas system

Arslan

et al. 2014

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The adaptation against foreign nucleic acids by the CRISPR–Cas system (Clustered Regularly Interspaced Short Palindromic Repeats and CRISPR-associated proteins) depends on the insertion of foreign nucleic acid-derived sequences into the CRISPR array as novel spacers by still unknown mechanism. We identified and characterized in Escherichia coli intermediate states of spacer integration and mapped the integration site at the chromosomal CRISPR array in vivo. The results show that the insertion of new spacers occurs by site-specific nicking at both strands of the leader proximal repeat in a staggered way and is accompanied by joining of the resulting 5′-ends of the repeat strands with the 3′-ends of the incoming spacer. This concerted cleavage-ligation reaction depends on the metal-binding center of Cas1 protein and requires the presence of Cas2. By acquisition assays using plasmid-located CRISPR array with mutated repeat sequences, we demonstrate that the primary sequence of the first repeat is crucial for cleavage of the CRISPR array and the ligation of new spacer DNA.

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Double-strand DNA end-binding and sliding of the toroidal CRISPR-associated protein Csn2

Arslan

Wurm

Brener

et al. 2013

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The adaptive immunity of bacteria against foreign nucleic acids, mediated by CRISPR (clustered regularly interspaced short palindromic repeats), relies on the specific incorporation of short pieces of the invading foreign DNA into a special genomic locus, termed CRISPR array. The stored sequences (spacers) are subsequently used in the form of small RNAs (crRNAs) to interfere with the target nucleic acid. We explored the DNA-binding mechanism of the immunization protein Csn2 from the human pathogen Streptococcus agalactiae using different biochemical techniques, atomic force microscopic imaging and molecular dynamics simulations. The results demonstrate that the ring-shaped Csn2 tetramer binds DNA ends through its central hole and slides inward, likely by a screw motion along the helical path of the enclosed DNA. The presented data indicate an accessory function of Csn2 during integration of exogenous DNA by end-joining.

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The crystal structure of the CRISPR-associated protein Csn2 from Streptococcus agalactiae

Ellinger

Arslan

Wurm

et al. 2012

Journal of Structural Biology

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RcsB-BglJ-mediated activation of Cascade operon does not induce the maturation of CRISPR RNAs inE. coliK12

et al. 2013

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Prokaryotic immunity against foreign nucleic acids mediated by clustered, regularly interspaced, short palindromic repeats (CRISPR) depends on the expression of the CRISPR-associated (Cas) proteins and the formation of small CRISPR RNAs (crRNAs). The crRNA-loaded Cas ribonucleoprotein complexes convey the specific recognition and inactivation of target nucleic acids. In E. coli K12, the maturation of crRNAs and the interference with target DNA is performed by the Cascade complex. The transcription of the Cascade operon is tightly repressed through H-NS-dependent inhibition of the Pcas promoter. Elevated levels of the LysR-type regulator LeuO induce the Pcas promoter and concomitantly activate the CRISPR-mediated immunity against phages. Here, we show that the Pcas promoter can also be induced by constitutive expression of the regulator BglJ. This activation is LeuO-dependent as heterodimers of BglJ and RcsB activate leuO transcription. Each transcription factor, LeuO or BglJ, induced the transcription of the Cascade genes to comparable amounts. However, the maturation of the crRNAs was activated in LeuO but not in BglJ-expressing cells. Studies on CRISPR promoter activities, transcript stabilities, crRNA processing and Cascade protein levels were performed to answer the question why crRNA maturation is defective in BglJ-expressing cells. Our results demonstrate that the activation of Cascade gene transcription is necessary but not sufficient to turn on the CRISPR-mediated immunity and suggest a more complex regulation of the type I-E CRISPR-Cas system in E. coli.

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Regulation of CRISPR-Based Immune Responses

Arslan¹,

Westra²,

Wagner³

et al. 2012

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Regulation of CRISPR-Based Immune Responses

Arslan

Westra

Wagner

et al. 2012

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Structure of CRISPR-associated protein Csn2

Ellinger¹,

Arslan²,

Wurm³

et al. 2012

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Zihni Arslan

Identification and characterization of E. coli CRISPR‐cas promoters and their silencing by H‐NS

Detection and characterization of spacer integration intermediates in type I-E CRISPR–Cas system

Double-strand DNA end-binding and sliding of the toroidal CRISPR-associated protein Csn2

The crystal structure of the CRISPR-associated protein Csn2 from Streptococcus agalactiae

RcsB-BglJ-mediated activation of Cascade operon does not induce the maturation of CRISPR RNAs inE. coliK12

Regulation of CRISPR-Based Immune Responses

Regulation of CRISPR-Based Immune Responses

Structure of CRISPR-associated protein Csn2

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