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  • Article  (35)
  • Gene Expression Regulation, Bacterial  (35)
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  • 1
    Language: English
    In: Proceedings of the National Academy of Sciences of the United States of America, 23 November 2010, Vol.107(47), pp.20435-40
    Description: The abundant class of bacterial Hfq-associated small regulatory RNAs (sRNAs) parallels animal microRNAs in their ability to control multiple genes at the posttranscriptional level by short and imperfect base pairing. In contrast to the universal length and seed pairing mechanism of microRNAs, the sRNAs are heterogeneous in size and structure, and how they regulate multiple targets is not well understood. This paper provides evidence that a 5' located sRNA domain is a critical element for the control of a large posttranscriptional regulon. We show that the conserved 5' end of RybB sRNA recognizes multiple mRNAs of Salmonella outer membrane proteins by ≥7-bp Watson-Crick pairing. When fused to an unrelated sRNA, the 5' domain is sufficient to guide target mRNA degradation and maintain σ(E)-dependent envelope homeostasis. RybB sites in mRNAs are often conserved and flanked by 3' adenosine. They are found in a wide sequence window ranging from the upstream untranslated region to the deep coding sequence, indicating that some targets might be repressed at the level of translation, whereas others are repressed primarily by mRNA destabilization. Autonomous 5' domains seem more common in sRNAs than appreciated and might improve the design of synthetic RNA regulators.
    Keywords: Bacterial Outer Membrane Proteins -- Metabolism ; Gene Expression Regulation, Bacterial -- Genetics ; RNA, Messenger -- Metabolism ; Regulatory Sequences, Ribonucleic Acid -- Genetics ; Regulon -- Genetics ; Salmonella -- Genetics
    ISSN: 00278424
    E-ISSN: 1091-6490
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  • 2
    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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  • 3
    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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  • 4
    In: Molecular Microbiology, September 2009, Vol.73(5), pp.737-741
    Description: Small regulatory RNAs (sRNAs) are well known to command bacterial protein synthesis by modulating the translation and decay of target mRNAs. Most sRNAs are specifically regulated by a cognate transcription factor under certain growth or stress conditions. Investigations of the conserved Hfq‐dependent MicM sRNA in (article by Poul Valentin‐Hansen and colleagues in this issue of ) and in have unravelled a novel type of gene regulation in which the chitobiose operon mRNA acts as an RNA trap to degrade the constitutively expressed MicM sRNA, thereby alleviating MicM‐mediated repression of the synthesis of the YbfM porin that is required for chitosugar uptake. The results suggest that ‘target’ mRNAs might be both prey and also predators of sRNAs.
    Keywords: Protein Synthesis ; Messenger Rna;
    ISSN: 0950-382X
    E-ISSN: 1365-2958
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  • 5
    In: Nature Reviews Microbiology, 2011, Vol.9(8), p.578
    Description: Hfq is an RNA-binding protein that is common to diverse bacterial lineages and has key roles in the control of gene expression. By facilitating the pairing of small RNAs with their target mRNAs, Hfq affects the translation and turnover rates of specific transcripts and contributes to complex post-transcriptional networks. These functions of Hfq can be attributed to its ring-like oligomeric architecture, which presents two non-equivalent binding surfaces that are capable of multiple interactions with RNA molecules. Distant homologues of Hfq occur in archaea and eukaryotes, reflecting an ancient origin for the protein family and hinting at shared functions. In this Review, we describe the salient structural and functional features of Hfq and discuss possible mechanisms by which this protein can promote RNA interactions to catalyse specific and rapid regulatory responses in vivo.
    Keywords: Biology;
    ISSN: 1740-1526
    E-ISSN: 17401534
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  • 6
    In: Molecular Microbiology, January 2009, Vol.71(1), pp.1-11
    Description: species are enterobacterial pathogens that have been exceptionally well investigated with respect to virulence mechanisms, microbial pathogenesis, genome evolution and many fundamental pathways of gene expression and metabolism. While these studies have traditionally focused on protein functions, has also become a model organism for RNA‐mediated regulation. The present review is dedicated to the non‐coding RNA world of : it covers small RNAs (sRNAs) that act as post‐transcriptional regulators of gene expression, novel Salmonella ‐regulatory RNA elements that sense metabolite and metal ion concentrations (or temperature), and globally acting RNA‐binding proteins such as CsrA or Hfq (inactivation of which cause drastic phenotypes and virulence defects). Owing to mosaic genome structure, some of the sRNAs are widely conserved in bacteria whereas others are very specific to species. Intriguingly, sRNAs of either type (CsrB/C, InvR, SgrS) facilitate cross‐talk between the core genome and its laterally acquired virulence regions. Work in also identified physiological functions (and mechanisms thereof) of RNA that had remained unknown in , and pioneered the use of high‐throughput sequencing technology to identify the sRNA and mRNA targets of bacterial RNA‐binding proteins.
    Keywords: Metabolites ; Proteins ; Messenger Rna ; Salmonella ; Gene Expression;
    ISSN: 0950-382X
    E-ISSN: 1365-2958
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  • 7
    Language: English
    In: Molecular Cell, 04 February 2016, Vol.61(3), pp.352-363
    Description: Small RNAs (sRNAs) from conserved noncoding genes are crucial regulators in bacterial signaling pathways but have remained elusive in the Cpx response to inner membrane stress. Here we report that an alternative biogenesis pathway releasing the conserved mRNA 3′ UTR of stress chaperone CpxP as an ∼60-nt sRNA provides the noncoding arm of the Cpx response. This so-called CpxQ sRNA, generated by general mRNA decay through RNase E, acts as an Hfq-dependent repressor of multiple mRNAs encoding extracytoplasmic proteins. Both CpxQ and the Cpx pathway are required for cell survival under conditions of dissipation of membrane potential. Our discovery of CpxQ illustrates how the conversion of a transcribed 3′ UTR into an sRNA doubles the output of a single mRNA to produce two factors with spatially segregated functions during inner membrane stress: a chaperone that targets problematic proteins in the periplasm and a regulatory RNA that dampens their synthesis in the cytosol. Chao and Vogel discover that a small RNA cleaved off the 3′ end of an mRNA provides the elusive regulatory noncoding arm of the bacterial Cpx response to inner membrane stress.
    Keywords: Cpx Pathway ; Cpxp ; Cpxq ; 3′ Utr ; Hfq ; Rnase E ; Noncoding RNA ; Nhab ; Envelope Stress ; Membrane Potential ; Biology
    ISSN: 1097-2765
    E-ISSN: 1097-4164
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  • 8
    Language: English
    In: Genes & development, 15 May 2013, Vol.27(10), pp.1073-8
    Description: The abundant RNA-binding proteins CsrA and Hfq each impact bacterial physiology by working in conjunction with small RNAs to control large post-transcriptional regulons. The small RNAs involved were considered mechanistically distinct, regulating mRNAs either directly through Hfq-mediated base-pairing or indirectly by sequestering the global translational repressor CsrA. In this issue of Genes & Development, Jørgensen and colleagues (pp. 1132-1145) blur these distinctions with a dual-mechanism small RNA that acts through both Hfq and CsrA to regulate the formation of bacterial biofilms.
    Keywords: Csra ; Csrb ; Hfq ; Pga ; C-Di-Gmp ; Gene Expression Regulation, Bacterial ; Biofilms -- Growth & Development ; Escherichia Coli -- Genetics ; RNA, Bacterial -- Genetics
    ISSN: 08909369
    E-ISSN: 1549-5477
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  • 9
    In: Molecular Microbiology, September 2011, Vol.81(5), pp.1144-1165
    Description: GcvB is one of the most highly conserved Hfq‐associated small RNAs in Gram‐negative bacteria and was previously reported to repress several ABC transporters for amino acids. To determine the full extent of GcvB‐mediated regulation in , we combined a genome‐wide experimental approach with biocomputational target prediction. Comparative pulse expression of wild‐type versus mutant sRNA variants revealed that GcvB governs a large post‐transcriptional regulon, impacting ∼1% of all genes via its conserved G/U‐rich domain R1. Complementary predictions of C/A‐rich binding sites in mRNAs and reporter fusion experiments increased the number of validated GcvB targets to more than 20, and doubled the number of regulated amino acid transporters. Unlike the previously described targeting via the single R1 domain, GcvB represses the glycine transporter CycA by exceptionally redundant base‐pairing. This novel ability of GcvB is focused upon the one target that could feedback‐regulate the glycine‐responsive synthesis of GcvB. Several newly discovered mRNA targets involved in amino acid metabolism, including the global regulator Lrp, question the previous assumption that GcvB simply acts to limit unnecessary amino acid uptake. Rather, GcvB rewires primary transcriptional control circuits and seems to act as a distinct regulatory node in amino acid metabolism.
    Keywords: Glycine -- Physiological Aspects ; Genetic Research -- Physiological Aspects ; Genomics -- Physiological Aspects ; Messenger Rna -- Physiological Aspects;
    ISSN: 0950-382X
    E-ISSN: 1365-2958
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  • 10
    Language: English
    In: Current Opinion in Microbiology, 2010, Vol.13(1), pp.24-33
    Description: The ubiquitous RNA-binding protein, Hfq, has been shown to be required for the fitness and virulence of an increasing number of bacterial pathogens. Mutants lacking Hfq are often sensitive to host defense mechanisms and highly attenuated in animal models, albeit there is considerable variation in both severity and extent of phenotypes. RNomics and deep sequencing (RNA-seq) approaches discovered the small RNA and mRNA targets of Hfq, and indicated that this protein might impact on the expression of up to 20% of all genes in some organisms, including genes of type 3 secretion systems Hfq also facilitates post-transcriptional cross-talk between the core and variable genome regions of bacterial pathogens, and might help integrate horizontally acquired virulence genes into existing regulatory networks.
    Keywords: Biology
    ISSN: 1369-5274
    E-ISSN: 1879-0364
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