Project description:In bacteria and archaea, CRISPR loci confer adaptive, sequence-based immunity against viruses and plasmids. CRISPR interference is specified by CRISPR RNAs (crRNAs) that are transcribed and processed from CRISPR spacers and repeats. Pre-crRNA processing is essential for CRISPR interference in all systems studied thus far. Here we examine crRNA biogenesis and CRISPR interference in naturally competent Neisseria spp., including the human pathogen N. meningitidis. Our studies reveal a unique crRNA maturation pathway in which crRNA transcription is driven by promoters that are embedded within each repeat, yielding crRNA 5’ ends are not formed by processing. Although crRNA 3’ end formation occurs through RNase III cleavage of a pre-crRNA/tracrRNA duplex, as in other Type II CRISPR systems, this processing event is dispensable for interference. The meningococcal pathway is the most streamlined CRISPR/cas system characterized to date. Endogenous CRISPR spacers frequently target genomic sequences of other Neisseria strains and so limit natural transformation, which is the primary source of genetic variation that contributes to immune evasion, antibiotic resistance, and virulence in N. meningitidis. dRNA-seq approach for RNA samples from cultures of N. lactamica 020-06, harvested at mid-log. Two cDNA libraries from total RNA were prepared to distinguish between transcripts with either primary orprocessed 5’ ends: one library is generated from untreated RNA, whereas the other is treated with terminator exonuclease (TEX),

Project description:In bacteria and archaea, CRISPR loci confer adaptive, sequence-based immunity against viruses and plasmids. CRISPR interference is specified by CRISPR RNAs (crRNAs) that are transcribed and processed from CRISPR spacers and repeats. Pre-crRNA processing is essential for CRISPR interference in all systems studied thus far. Here we examine crRNA biogenesis and CRISPR interference in naturally competent Neisseria spp., including the human pathogen N. meningitidis. Our studies reveal a unique crRNA maturation pathway in which crRNA transcription is driven by promoters that are embedded within each repeat, yielding crRNA 5’ ends are not formed by processing. Although crRNA 3’ end formation occurs through RNase III cleavage of a pre-crRNA/tracrRNA duplex, as in other Type II CRISPR systems, this processing event is dispensable for interference. The meningococcal pathway is the most streamlined CRISPR/cas system characterized to date. Endogenous CRISPR spacers frequently target genomic sequences of other Neisseria strains and so limit natural transformation, which is the primary source of genetic variation that contributes to immune evasion, antibiotic resistance, and virulence in N. meningitidis.

Project description:Off-target (OT) analysis of different guide RNAs targeting PKLR gene. GUIDE-Seq analyses were done in HEK293 cells stably expressing Cas9 transfected with gRNA complexes, generated using Alt-R® CRISPR-Cas9 crRNA XT and Alt-R®CRISPR-Cas9 tracrRNA, and transfected with a dsODN tag

Project description:By a robust unbiased ChIP-seq approach, we demonstrated that CRISPR/Cas9 had crRNA-specific off-target binding activities in human genome. However, most of those binding off-targets could not be efficiently cleaved both in vivo and in vitro which suggested the cleavage off-target activity of CRISPR/Cas9 in human genome is very limited. We provided a valuable tool to further investigate the molecular mechanism of CRISPR/Cas9 and to optimize its in vivo targeting sgRNA binding sites were identified with ChipSeq by using GFP antibody (there are 2 replicates for egfa-t1 sgRNA,emx1 sgRNA and control without sgRNA in Hek293T cells, one egfa-t1 sgRNA,emx1 sgRNA and control without sgRNA in HeLaS3 cells)

Project description:A whole transcriptome study was performed on Sulfolobus islandicus REY15A actively undergoing CRISPR spacer acquisition from the crenarchaeal monocaudavirus STSV2 in rich (TYS) and basal (SCV) media over a 6 day period. Spacer acquisition preceded strong host growth retardation, and changes in viral transcript abundance and virus copy numbers showed significant differences between the two media. Results showed that rich medium favoured CRISPR-Cas immunity generation.

Project description:Bacterial CRISPR-Cas9 immune systems protect against foreign DNA. However, immune efficiency is constrained by Cas9 off-target effects and toxicity. Here, we demonstrate that CRISPR-Cas9 immunity is regulated by CovR, the major regulator of virulence in Group B Streptococcus, a pathobiont responsible for neonatal invasive infections. We show that CovR binds to and represses a distal promoter of the cas operon, embedding immunity in the virulence regulatory network. Releasing CovR repression enhances immune efficiency against suboptimal spacers, originating from old immune memory or mutations, thereby transiently expanding the sequence space recognized and cleaved by Cas9. Furthermore, CovR inactivation promotes the acquisition of new spacers, enhancing immune memory. CovR-mediated immune regulation is conserved at the species level, with lineage-specific variability in the constitutive cas promoter and Cas9 variants, suggesting different evolutionary trajectories. Overall, we describe a coordinated regulatory mechanism between immunity and virulence that enhances the immune repertoire during acute infection phases.

Project description:Bacterial CRISPR-Cas9 immune systems protect against foreign DNA. However, immune efficiency is constrained by Cas9 off-target effects and toxicity. Here, we demonstrate that CRISPR-Cas9 immunity is regulated by CovR, the major regulator of virulence in Group B Streptococcus, a pathobiont responsible for neonatal invasive infections. We show that CovR binds to and represses a distal promoter of the cas operon, embedding immunity in the virulence regulatory network. Releasing CovR repression enhances immune efficiency against suboptimal spacers, originating from old immune memory or mutations, thereby transiently expanding the sequence space recognized and cleaved by Cas9. Furthermore, CovR inactivation promotes the acquisition of new spacers, enhancing immune memory. CovR-mediated immune regulation is conserved at the species level, with lineage-specific variability in the constitutive cas promoter and Cas9 variants, suggesting different evolutionary trajectories. Overall, we describe a coordinated regulatory mechanism between immunity and virulence that enhances the immune repertoire during acute infection phases.

Project description:CCM3 regulates blood-brain-barrier integrity and vascular maturation in vivo. CCM3 loss-of-function variants predispose to cerebral cavernous malformations (CCM). Various signalling pathways are deregulated upon CCM3 depletion in endothelial cells (ECs). In this study, we established a crRNA:tracrRNA:Cas9 RNP approach to efficiently knockout CCM3 in human ECs and studied the molecular and functional effects of its long-term inactivation. Using small RNA sequencing, we show that CCM3 regulates the expression of aging‑associated miRNAs.

Project description:We measured global RNA levels using RNA-seq in cas3+ E. coli cells with intact CRISPR arrays or cells with the CRISPR-I array deleted to determine if off-target events driven by endogenous spacers affect RNA levels.

Project description:We measured global RNA levels using RNA-seq in cas3 E. coli cells with intact CRISPR arrays or cells with the CRISPR-I array deleted to determine if off-target events driven by endogenous spacers affect local gene expression.