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  • Article  (71)
  • Vogel, J.  (71)
  • RNA, Bacterial  (71)
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  • Article  (71)
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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, 27 March 2012, Vol.109(13), pp.E757-64
    Description: SgrS RNA is a model for the large class of Hfq-associated small RNAs that act to posttranscriptionally regulate bacterial mRNAs. The function of SgrS is well-characterized in nonpathogenic Escherichia coli, where it was originally shown to counteract glucose-phosphate stress by acting as a repressor of the ptsG mRNA, which encodes the major glucose transporter. We have discovered additional SgrS targets in Salmonella Typhimurium, a pathogen related to E. coli that recently acquired one-quarter of all genes by horizontal gene transfer. We show that the conserved short seed region of SgrS that recognizes ptsG was recruited to target the Salmonella-specific sopD mRNA of a secreted virulence protein. The SgrS-sopD interaction is exceptionally selective; we find that sopD2 mRNA, whose gene arose from sopD duplication during Salmonella evolution, is deaf to SgrS because of a nonproductive G-U pair in the potential SgrS-sopD2 RNA duplex vs. G-C in SgrS-sopD. In other words, SgrS discriminates the two virulence factor mRNAs at the level of a single hydrogen bond. Our study suggests that bacterial pathogens use their large suites of conserved Hfq-associated regulators to integrate horizontally acquired genes into existing posttranscriptional networks, just as conserved transcription factors are recruited to tame foreign genes at the DNA level. The results graphically illustrate the importance of the seed regions of bacterial small RNAs to select new targets with high fidelity and suggest that target predictions must consider all or none decisions by individual seed nucleotides.
    Keywords: Phylogeny ; Base Pairing -- Genetics ; Gene Transfer, Horizontal -- Genetics ; RNA, Bacterial -- Genetics ; Salmonella -- Genetics
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 3
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 20 March 2012, Vol.109(12), pp.4621-6
    Description: The conserved RNA-binding protein Hfq and its associated small regulatory RNAs (sRNAs) are increasingly recognized as the players of a large network of posttranscriptional control of gene expression in Gram-negative bacteria. The role of Hfq in this network is to facilitate base pairing between sRNAs and their trans-encoded target mRNAs. Although the number of known sRNA-mRNA interactions has grown steadily, cellular factors that influence Hfq, the mediator of these interactions, have remained unknown. We report that RelA, a protein long known as the central regulator of the bacterial-stringent response, acts on Hfq and thereby affects the physiological activity of RyhB sRNA as a regulator of iron homeostasis. RyhB requires RelA in vivo to arrest growth during iron depletion and to down-regulate a subset of its target mRNAs (fdoG, nuoA, and sodA), whereas the sodB and sdhC targets are barely affected by RelA. In vitro studies with recombinant proteins show that RelA enhances multimerization of Hfq monomers and stimulates Hfq binding of RyhB and other sRNAs. Hfq from polysomes extracted from wild-type cells binds RyhB in vitro, whereas Hfq from polysomes of a relA mutant strain shows no binding. We propose that, by increasing the level of the hexameric form of Hfq, RelA enables binding of RNAs whose affinity for Hfq is low. Our results suggest that, under specific conditions and/or environments, Hfq concentrations are limiting for RNA binding, which thereby provides an opportunity for cellular proteins such as RelA to impact sRNA-mediated responses by modulating the activity of Hfq.
    Keywords: Escherichia Coli -- Metabolism ; Escherichia Coli Proteins -- Physiology ; Host Factor 1 Protein -- Physiology ; Ligases -- Physiology ; RNA, Bacterial -- Metabolism ; RNA-Binding Proteins -- Physiology
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 4
    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.
    Keywords: Article;
    ISSN: 0028-0836
    E-ISSN: 14764687
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  • 5
    In: Molecular Microbiology, April 2012, Vol.84(1), pp.1-5
    Description: The transcription factor CsgD governing the production of curli fimbriae and cellulose is a key player in the complex regulatory circuit that decides whether form biofilms. The gene itself is tightly controlled at the level of transcription by a large array of DNA‐binding proteins, but what happens after transcription is less understood. In this issue of , Jørgensen (2012), Mika (2012) and Thomason (2012) report on small RNAs (McaS, RprA and GcvB) that together with the RNA‐chaperone Hfq regulate the mRNAs of and other biofilm genes, and illustrate the burgeoning concept that the 5′ region of bacterial mRNA serves as a hub for sRNA‐mediated signal integration at the post‐transcriptional level.
    Keywords: Transcription (Genetics) ; Proteins ; Messenger Rna ; Genes ; Cellulose;
    ISSN: 0950-382X
    E-ISSN: 1365-2958
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  • 6
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 11 October 2016, Vol.113(41), pp.11591-11596
    Description: The functional annotation of transcriptomes and identification of noncoding RNA (ncRNA) classes has been greatly facilitated by the advent of next-generation RNA sequencing which, by reading the nucleotide order of transcripts, theoretically allows the rapid profiling of all transcripts in a cell. However, primary sequence per se is a poor predictor of function, as ncRNAs dramatically vary in length and structure and often lack identifiable motifs. Therefore, to visualize an informative RNA landscape of organisms with potentially new RNA biology that are emerging from microbiome and environmental studies requires the use of more functionally relevant criteria. One such criterion is the association of RNAs with functionally important cognate RNA-binding proteins. Here we analyze the full ensemble of cellular RNAs using gradient profiling by sequencing (Grad-seq) in the bacterial pathogen Salmonella enterica, partitioning its coding and noncoding transcripts based on their network of RNA-protein interactions. In addition to capturing established RNA classes based on their biochemical profiles, the Grad-seq approach enabled the discovery of an overlooked large collective of structured small RNAs that form stable complexes with the conserved protein ProQ. We show that ProQ is an abundant RNA-binding protein with a wide range of ligands and a global influence on Salmonella gene expression. Given its generic ability to chart a functional RNA landscape irrespective of transcript length and sequence diversity, Grad-seq promises to define functional RNA classes and major RNA-binding proteins in both model species and genetically intractable organisms.
    Keywords: Hfq ; Proq ; RNA–Protein Interaction ; Noncoding RNA ; Small RNA ; Bacterial Proteins -- Metabolism ; High-Throughput Nucleotide Sequencing -- Methods ; RNA, Bacterial -- Metabolism ; RNA-Binding Proteins -- Metabolism ; Salmonella Enterica -- Metabolism
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 7
    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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  • 8
    Language: English
    In: Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 05 November 2016, Vol.371(1707)
    Description: Infection is a complicated balance, with both pathogen and host struggling to tilt the result in their favour. Bacterial infection biology has relied on forward genetics for many of its advances, defining phenotype in terms of replication in model systems. However, many known virulence factors fail to produce robust phenotypes, particularly in the systems most amenable to genetic manipulation, such as cell-culture models. This has particularly been limiting for the study of the bacterial regulatory small RNAs (sRNAs) in infection. We argue that new sequencing-based technologies can work around this problem by providing a 'molecular phenotype', defined in terms of the specific transcriptional dysregulation in the infection system induced by gene deletion. We illustrate this using the example of our recent study of the PinT sRNA using dual RNA-seq, that is, simultaneous RNA sequencing of host and pathogen during infection. We additionally discuss how other high-throughput technologies, in particular genetic interaction mapping using transposon insertion sequencing, may be used to further dissect molecular phenotypes. We propose a strategy for how high-throughput technologies can be integrated in the study of non-coding regulators as well as bacterial virulence factors, enhancing our ability to rapidly generate hypotheses with regards to their function.This article is part of the themed issue 'The new bacteriology'.
    Keywords: Pint ; Tn-Seq ; Dual RNA-Seq ; Host–Pathogen Interaction ; Infection ; Small Non-Coding RNA ; Chromosome Mapping -- Methods ; High-Throughput Nucleotide Sequencing -- Methods ; RNA, Bacterial -- Genetics ; RNA, Small Untranslated -- Genetics ; Sequence Analysis, RNA -- Methods
    ISSN: 09628436
    E-ISSN: 1471-2970
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  • 9
    In: EMBO Journal, 03 June 2015, Vol.34(11), pp.1478-1492
    Description: There is an expanding list of examples by which one can posttranscriptionally influence the expression of others. This can involve sponges that sequester regulatory s of s in the same regulon, but the underlying molecular mechanism of such cross talk remains little understood. Here, we report sponge‐mediated cross talk in the posttranscriptional network of GcvB, a conserved Hfq‐dependent small with one of the largest regulons known in bacteria. We show that decay from the locus encoding an amino acid transporter generates a stable fragment (SroC) that base‐pairs with GcvB. This interaction triggers the degradation of GcvB by ase E, alleviating the GcvB‐mediated repression of other amino acid‐related transport and metabolic genes. Intriguingly, since the itself is a target of GcvB, the SroC sponge seems to enable both an internal feed‐forward loop to activate its parental in and activation of many ‐encoded s in the same pathway. Disabling this cross talk affects bacterial growth when peptides are the sole carbon and nitrogen sources. Decay of the bacterial GcvB , which keeps it from regulating its targets, is triggered by a 3′‐‐derived fragment from a target . This ability of s to compete for regulatory interaction presents a new mode of cross talk in bacteria. . Decay of the bacterial GcvB s, which keeps it from regulating its m targets, is triggered by a 3′‐‐derived fragment from a target m. This ability of ms to compete for regulatory interaction presents a new mode of cross talk in bacteria.
    Keywords: G Cv B ; H Fq ; Noncoding Rna ; Rn Ase E ; S Ro C
    ISSN: 0261-4189
    E-ISSN: 1460-2075
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  • 10
    In: EMBO Journal, 01 February 2017, Vol.36(3), pp.245-247
    Description: While bacteria were long thought to rely primarily on transcriptional control, it is now well established that they also use numerous small s to regulate translation and stability. There has recently been a surge in studies, including one by Waters ([Waters SA, 2017]) in this issue of , that have used clever variations of the ‐seq technique to comprehensively map small –target networks. Several recent studies have used clever variations of RNA‐seq techniques to comprehensively map small RNA–target networks involved in controlling bacterial gene expression.
    Keywords: Biology ; Chemistry;
    ISSN: 0261-4189
    E-ISSN: 1460-2075
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