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  • Bacteria
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  • 1
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 25 August 2015, Vol.112(34), pp.E4772-81
    Description: Horizontal gene transfer via plasmid conjugation is a major driving force in microbial evolution but constitutes a complex process that requires synchronization with the physiological state of the host bacteria. Although several host transcription factors are known to regulate plasmid-borne transfer genes, RNA-based regulatory circuits for host-plasmid communication remain unknown. We describe a posttranscriptional mechanism whereby the Hfq-dependent small RNA, RprA, inhibits transfer of pSLT, the virulence plasmid of Salmonella enterica. RprA employs two separate seed-pairing domains to activate the mRNAs of both the sigma-factor σ(S) and the RicI protein, a previously uncharacterized membrane protein here shown to inhibit conjugation. Transcription of ricI requires σ(S) and, together, RprA and σ(S) orchestrate a coherent feedforward loop with AND-gate logic to tightly control the activation of RicI synthesis. RicI interacts with the conjugation apparatus protein TraV and limits plasmid transfer under membrane-damaging conditions. To our knowledge, this study reports the first small RNA-controlled feedforward loop relying on posttranscriptional activation of two independent targets and an unexpected role of the conserved RprA small RNA in controlling extrachromosomal DNA transfer.
    Keywords: Hfq ; Rpra ; Feedforward Control ; Plasmid Conjugation ; Srna ; Chromosomes, Bacterial ; DNA, Bacterial -- Genetics ; RNA, Bacterial -- Genetics ; Salmonella -- Genetics
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 2
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 02 August 2011, Vol.108(31), pp.12875-80
    Description: The Escherichia coli σ(E) envelope stress response monitors and repairs the outer membrane, a function central to the life of Gram-negative bacteria. The σ(E) stress response was characterized as a single-tier activation network comprised of ~100 genes, including the MicA and RybB noncoding sRNAs. These highly expressed sRNAs were thought to carry out the specialized function of halting de novo synthesis of several abundant porins when envelope homeostasis was perturbed. Using a systematic target profiling and validation approach we discovered that MicA and RybB are each global mRNA repressors of both distinct and shared targets, and that the two sRNAs constitute a posttranscriptional repression arm whose regulatory scope rivals that of the protein-based σ(E) activation arm. Intriguingly, porin mRNAs constitute only ~1/3 of all targets and new nonporin targets predict roles for MicA and RybB in crosstalk with other regulatory responses. This work also provides an example of evolutionarily unrelated sRNAs that are coinduced and bind the same targets, but at different sites. Our finding that expression of either MicA or RybB sRNA protects the cell from the loss of viability experienced when σ(E) activity is inadequate illustrates the importance of the posttranscriptional repression arm of the response. σ(E) is a paradigm of a single-tier stress response with a clear division of labor in which highly expressed noncoding RNAs (MicA, RybB) endow a transcriptional factor intrinsically restricted to gene activation (σ(E)) with the opposite repressor function.
    Keywords: Escherichia Coli Proteins -- Genetics ; RNA, Small Untranslated -- Genetics ; Regulon -- Genetics ; Sigma Factor -- Genetics
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 3
    In: Nature, 2011, Vol.471(7340), p.602
    Description: CRISPR/Cas systems constitute a widespread class of immunity systems that protect bacteria and archaea against phages and plasmids, and commonly use repeat/spacer-derived short crRNAs to silence foreign nucleic acids in a sequence-specific manner. Although the maturation of crRNAs represents a key event in CRISPR activation, the responsible endoribonucleases (CasE, Cas6, Csy4) are missing in many CRISPR/Cas subtypes. Here, differential RNA sequencing of the human pathogen Streptococcus pyogenes uncovered tracrRNA, a trans-encoded small RNA with 24-nucleotide complementarity to the repeat regions of crRNA precursor transcripts. We show that tracrRNA directs the maturation of crRNAs by the activities of the widely conserved endogenous RNase III and the CRISPR-associated Csn1 protein; all these components are essential to protect S. pyogenes against prophage-derived DNA. Our study reveals a novel pathway of small guide RNA maturation and the first example of a host factor (RNase III) required for bacterial RNA-mediated immunity against invaders. [PUBLICATION ]
    Keywords: Bacterial Proteins–Chemistry ; Bacterial Proteins–Genetics ; Bacterial Proteins–Immunology ; Bacterial Proteins–Metabolism ; Conserved Sequence–Genetics ; DNA, Viral–Metabolism ; DNA, Viral–Genetics ; Escherichia Coli–Genetics ; Models, Biological–Metabolism ; Prophages–Biosynthesis ; RNA Precursors–Genetics ; RNA Precursors–Immunology ; RNA Processing, Post-Transcriptional–Metabolism ; RNA, Bacterial–Genetics ; RNA, Bacterial–Metabolism ; RNA, Bacterial–Genetics ; RNA, Bacterial–Immunology ; RNA, Guide–Metabolism ; Ribonuclease III–Virology ; Streptococcus Pyogenes–Virology ; Streptococcus Pyogenes–Virology ; Streptococcus Pyogenes–Virology ; Streptococcus Pyogenes–Virology ; E Coli ; Bacteria ; Bacteriology ; Plasmids ; Proteins ; Bacterial Proteins ; DNA, Viral ; RNA Precursors ; RNA, Bacterial ; RNA, Guide ; Ribonuclease III;
    ISSN: 0028-0836
    E-ISSN: 14764687
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  • 4
    In: EMBO Journal, 03 July 2013, Vol.32(13), pp.1802-1804
    Description: CRISPR systems not only defend bacteria from foreign DNA but also contribute to pathogenicity, by regulating endogenous gene expression to evade host innate immune responses.
    Keywords: Animals–Immunology ; Female–Pathogenicity ; Gammaproteobacteria–Immunology ; Gammaproteobacteria–Immunology ; Immune Evasion–Immunology ; Immunity, Innate–Immunology ; Germany ; Prokaryotes ; Gene Expression ; Eukaryotes ; Bacteria ; Molecular Biology;
    ISSN: 0261-4189
    E-ISSN: 1460-2075
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  • 5
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 27 June 2017, Vol.114(26), pp.6824-6829
    Description: The functions of many bacterial RNA-binding proteins remain obscure because of a lack of knowledge of their cellular ligands. Although well-studied cold-shock protein A (CspA) family members are induced and function at low temperature, others are highly expressed in infection-relevant conditions. Here, we have profiled transcripts bound in vivo by the CspA family members of serovar Typhimurium to link the constitutively expressed CspC and CspE proteins with virulence pathways. Phenotypic assays in vitro demonstrated a crucial role for these proteins in membrane stress, motility, and biofilm formation. Moreover, double deletion of and fully attenuates in systemic mouse infection. In other words, the RNA ligand-centric approach taken here overcomes a problematic molecular redundancy of CspC and CspE that likely explains why these proteins have evaded selection in previous virulence factor screens in animals. Our results highlight RNA-binding proteins as regulators of pathogenicity and potential targets of antimicrobial therapy. They also suggest that globally acting RNA-binding proteins are more common in bacteria than currently appreciated.
    Keywords: RNA-Binding Protein ; Salmonella ; Bacterial Pathogenesis ; Cold-Shock Protein ; Stress Response ; Bacterial Proteins ; Cold Shock Proteins and Peptides ; Heat-Shock Proteins ; RNA-Binding Proteins ; Salmonella Infections ; Salmonella Typhimurium ; Virulence Factors
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 6
    In: Molecular Microbiology, December 2010, Vol.78(6), pp.1327-1331
    Description: Although most bacterial small RNAs act to repress target mRNAs, some also activate messengers. The predominant mode of activation has been seen in ‘anti‐antisense’ regulation whereby a small RNA prevents the formation of an inhibitory 5′ mRNA structure that otherwise impairs translational initiation and protein synthesis. The translational activation might also stabilize the target yet this was considered a secondary effect in the examples known thus far. Two recent papers in investigate post‐transcriptional activation of collagenase mRNA by VR‐RNA, and streptokinase mRNA by FasX RNA, to suggest that small RNAs exert positive regulation of virulence genes primarily at the level of mRNA stabilization.
    Keywords: Protein Synthesis ; Messenger Rna;
    ISSN: 0950-382X
    E-ISSN: 1365-2958
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  • 7
    Language: English
    In: PLoS ONE, 2011, Vol.6(3), p.e17296
    Description: P-bodies are dynamic aggregates of RNA and proteins involved in several post-transcriptional regulation processes. P-bodies have been shown to play important roles in regulating viral infection, whereas their interplay with bacterial pathogens, specifically intracellular bacteria that extensively manipulate host cell pathways, remains unknown. Here, we report that Salmonella infection induces P-body disassembly in a cell type-specific manner, and independently of previously characterized pathways such as inhibition of host cell RNA synthesis or microRNA-mediated gene silencing. We show that the Salmonella -induced P-body disassembly depends on the activation of the SPI-2 encoded type 3 secretion system, and that the secreted effector protein SpvB plays a major role in this process. P-body disruption is also induced by the related pathogen, Shigella flexneri , arguing that this might be a new mechanism by which intracellular bacterial pathogens subvert host cell function.
    Keywords: Research Article ; Biology ; Medicine ; Infectious Diseases ; Microbiology ; Molecular Biology ; Cell Biology
    E-ISSN: 1932-6203
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  • 8
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 01 February 2011, Vol.108(5), pp.2124-9
    Description: There has been an increasing interest in cyanobacteria because these photosynthetic organisms convert solar energy into biomass and because of their potential for the production of biofuels. However, the exploitation of cyanobacteria for bioengineering requires knowledge of their transcriptional organization. Using differential RNA sequencing, we have established a genome-wide map of 3,527 transcriptional start sites (TSS) of the model organism Synechocystis sp. PCC6803. One-third of all TSS were located upstream of an annotated gene; another third were on the reverse complementary strand of 866 genes, suggesting massive antisense transcription. Orphan TSS located in intergenic regions led us to predict 314 noncoding RNAs (ncRNAs). Complementary microarray-based RNA profiling verified a high number of noncoding transcripts and identified strong ncRNA regulations. Thus, ∼64% of all TSS give rise to antisense or ncRNAs in a genome that is to 87% protein coding. Our data enhance the information on promoters by a factor of 40, suggest the existence of additional small peptide-encoding mRNAs, and provide corrected 5' annotations for many genes of this cyanobacterium. The global TSS map will facilitate the use of Synechocystis sp. PCC6803 as a model organism for further research on photosynthesis and energy research.
    Keywords: Transcription, Genetic ; Synechocystis -- Genetics
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 9
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 10 September 2013, Vol.110(37), pp.E3487-96
    Description: Small RNAs (sRNAs) constitute a large and heterogeneous class of bacterial gene expression regulators. Much like eukaryotic microRNAs, these sRNAs typically target multiple mRNAs through short seed pairing, thereby acting as global posttranscriptional regulators. In some bacteria, evidence for hundreds to possibly more than 1,000 different sRNAs has been obtained by transcriptome sequencing. However, the experimental identification of possible targets and, therefore, their confirmation as functional regulators of gene expression has remained laborious. Here, we present a strategy that integrates phylogenetic information to predict sRNA targets at the genomic scale and reconstructs regulatory networks upon functional enrichment and network analysis (CopraRNA, for Comparative Prediction Algorithm for sRNA Targets). Furthermore, CopraRNA precisely predicts the sRNA domains for target recognition and interaction. When applied to several model sRNAs, CopraRNA revealed additional targets and functions for the sRNAs CyaR, FnrS, RybB, RyhB, SgrS, and Spot42. Moreover, the mRNAs gdhA, lrp, marA, nagZ, ptsI, sdhA, and yobF-cspC were suggested as regulatory hubs targeted by up to seven different sRNAs. The verification of many previously undetected targets by CopraRNA, even for extensively investigated sRNAs, demonstrates its advantages and shows that CopraRNA-based analyses can compete with experimental target prediction approaches. A Web interface allows high-confidence target prediction and efficient classification of bacterial sRNAs.
    Keywords: E. Coli ; RNA–RNA Interaction ; Regulatory RNA ; RNA, Bacterial -- Genetics
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 10
    Language: English
    In: Nature, 28 January 2016, Vol.529(7587), pp.496-501
    Description: Bacteria express many small RNAs for which the regulatory roles in pathogenesis have remained poorly understood due to a paucity of robust phenotypes in standard virulence assays. Here we use a generic 'dual RNA-seq' approach to profile RNA expression simultaneously in pathogen and host during Salmonella enterica serovar Typhimurium infection and reveal the molecular impact of bacterial riboregulators. We identify a PhoP-activated small RNA, PinT, which upon bacterial internalization temporally controls the expression of both invasion-associated effectors and virulence genes required for intracellular survival. This riboregulatory activity causes pervasive changes in coding and noncoding transcripts of the host. Interspecies correlation analysis links PinT to host cell JAK-STAT signalling, and we identify infection-specific alterations in multiple long noncoding RNAs. Our study provides a paradigm for a sensitive RNA-based analysis of intracellular bacterial pathogens and their hosts without physical separation, as well as a new discovery route for hidden functions of pathogen genes.
    Keywords: Gene Expression Regulation -- Genetics ; Host-Pathogen Interactions -- Genetics ; RNA, Bacterial -- Genetics ; RNA, Untranslated -- Genetics ; Salmonella Typhimurium -- Genetics
    ISSN: 00280836
    E-ISSN: 1476-4687
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