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  • Article  (15)
  • Vogel, Jorg  (15)
  • Genomics
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  • Article  (15)
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  • 1
    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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  • 2
    In: EMBO Journal, 17 October 2012, Vol.31(20), pp.4005-4019
    Description: The small RNAs associated with the protein Hfq constitute one of the largest classes of post‐transcriptional regulators known to date. Most previously investigated members of this class are encoded by conserved free‐standing genes. Here, deep sequencing of Hfq‐bound transcripts from multiple stages of growth of revealed a plethora of new small RNA species from within mRNA loci, including DapZ, which overlaps with the 3′ region of the biosynthetic gene, . Synthesis of the DapZ small RNA is independent of DapB protein synthesis, and is controlled by HilD, the master regulator of invasion genes. DapZ carries a short G/U‐rich domain similar to that of the globally acting GcvB small RNA, and uses GcvB‐like seed pairing to repress translation of the major ABC transporters, DppA and OppA. This exemplifies double functional output from an mRNA locus by the production of both a protein and an Hfq‐dependent ‐acting RNA. Our atlas of Hfq targets suggests that the 3′ regions of mRNA genes constitute a rich reservoir that provides the Hfq network with new regulatory small RNAs. Deep sequencing of Hfq‐binding RNAs isolated from at different growth stages reveals that the 3′ UTR of bacterial mRNAs are a rich source of regulatory small RNAs which modulate gene expression in trans.
    Keywords: Abc Transporter ; Dapz ; Gcvb ; Hfq ; 3′ Utr
    ISSN: 0261-4189
    E-ISSN: 1460-2075
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  • 3
    Language: English
    In: Nucleic acids research, March 2012, Vol.40(5), pp.2020-31
    Description: The Gram-negative plant-pathogenic bacterium Xanthomonas campestris pv. vesicatoria (Xcv) is an important model to elucidate the mechanisms involved in the interaction with the host. To gain insight into the transcriptome of the Xcv strain 85-10, we took a differential RNA sequencing (dRNA-seq) approach. Using a novel method to automatically generate comprehensive transcription start site (TSS) maps we report 1421 putative TSSs in the Xcv genome. Genes in Xcv exhibit a poorly conserved -10 promoter element and no consensus Shine-Dalgarno sequence. Moreover, 14% of all mRNAs are leaderless and 13% of them have unusually long 5'-UTRs. Northern blot analyses confirmed 16 intergenic small RNAs and seven cis-encoded antisense RNAs in Xcv. Expression of eight intergenic transcripts was controlled by HrpG and HrpX, key regulators of the Xcv type III secretion system. More detailed characterization identified sX12 as a small RNA that controls virulence of Xcv by affecting the interaction of the pathogen and its host plants. The transcriptional landscape of Xcv is unexpectedly complex, featuring abundant antisense transcripts, alternative TSSs and clade-specific small RNAs.
    Keywords: RNA, Small Untranslated -- Metabolism ; Virulence Factors -- Genetics ; Xanthomonas Campestris -- Genetics
    ISSN: 03051048
    E-ISSN: 1362-4962
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  • 4
    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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  • 5
    Language: English
    In: Molecular Cell, 10 October 2013, Vol.52(1), pp.4-7
    Description: Three papers in this issue of report on the structure and functional activity of type III CRISPR-Cas effector complexes, revealing novel and conserved features of the ribonucleoprotein particles that underlie prokaryotic genome defense. The new structures suggest that type I and type III complexes follow the same architectural principles and are most likely descendants of a common ancestor, the differences in RNA and protein sequences and structure of individual components notwithstanding.
    Keywords: Biology
    ISSN: 1097-2765
    E-ISSN: 1097-4164
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  • 6
    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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  • 7
    Language: English
    In: Current Opinion in Microbiology, April 2016, Vol.30, pp.50-57
    Description: RNA modifications are known to abound in stable tRNA and rRNA, where they cluster around functionally important regions. However, RNA-seq based techniques profiling entire transcriptomes are now uncovering an abundance of modified ribonucleotides in mRNAs and noncoding RNAs, too. While most of the recent progress in understanding the regulatory influence of these new RNA modifications stems from eukaryotes, there is growing evidence in bacteria for modified nucleotides beyond the stable RNA species, including modifications of small regulatory RNAs. Given their small genome size, good genetic tractability, and ample knowledge of modification enzymes, bacteria offer excellent model systems to decipher cellular functions of RNA modifications in many diverse physiological contexts. This review highlights how new global approaches combining classic analysis with new sequencing techniques may usher in an era of bacterial epitranscriptomics.
    Keywords: Biology
    ISSN: 1369-5274
    E-ISSN: 1879-0364
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  • 8
    Language: English
    In: Molecular Cell, 07 June 2018, Vol.70(5), pp.785-799
    Description: Bacteria are an exceedingly diverse group of organisms whose molecular exploration is experiencing a renaissance. While the classical view of bacterial gene expression was relatively simple, the emerging view is more complex, encompassing extensive post-transcriptional control involving riboswitches, RNA thermometers, and regulatory small RNAs (sRNAs) associated with the RNA-binding proteins CsrA, Hfq, and ProQ, as well as CRISPR/Cas systems that are programmed by RNAs. Moreover, increasing interest in members of the human microbiota and environmental microbial communities has highlighted the importance of understudied bacterial species with largely unknown transcriptome structures and RNA-based control mechanisms. Collectively, this creates a need for global RNA biology approaches that can rapidly and comprehensively analyze the RNA composition of a bacterium of interest. We review such approaches with a focus on RNA-seq as a versatile tool to investigate the different layers of gene expression in which RNA is made, processed, regulated, modified, translated, and turned over. RNA-seq-based approaches are revolutionizing how bacterial RNA biology can be studied. Hör, Gorski, and Vogel review the available global methods that can be used to chart the increasingly diverse number of RNA species and functions in any microbe of interest.
    Keywords: RNA-Seq ; Non-Coding RNA ; Small RNA ; Transcription ; RNA-Binding Protein ; Post-Transcriptional Control ; Biology
    ISSN: 1097-2765
    E-ISSN: 1097-4164
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  • 9
    Language: English
    In: Current Opinion in Microbiology, October 2017, Vol.39, pp.152-160
    Description: The identification of new RNA functions and the functional annotation of transcripts in genomes represent exciting yet challenging endeavours of modern biology. Crucial insights into the biological roles of RNA molecules can be gained from the identification of the proteins with which they form specific complexes. Modern interactome techniques permit to profile RNA–protein interactions in a genome-wide manner and identify new RNA classes associated with globally acting RNA-binding proteins. Applied to a variety of organisms, these methods are already revolutionising our understanding of RNA-mediated biological processes. Here, we focus on one such approach — Gradient sequencing or Grad-seq — which has recently guided the discovery of protein ProQ and its associated small RNAs as a new domain of post-transcriptional control in bacteria.
    Keywords: Biology
    ISSN: 1369-5274
    E-ISSN: 1879-0364
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  • 10
    In: Molecular Microbiology, December 2009, Vol.74(6), pp.1497-1512
    Description: Exposure to oxygen and light generates photooxidative stress by the bacteriochlorophyll mediated formation of singlet oxygen (O) in . Our study reports the genome‐wide search for small RNAs (sRNAs) involved in the regulatory response to O. By using 454 pyrosequencing and Northern blot analysis, we identified 20 sRNAs from aerobic cultures or following treatment with O or superoxide (O). One sRNA was specifically induced by O and its expression depends on the extracytoplasmic function sigma factor RpoE. Two sRNAs induced by O and O were cotranscribed with upstream genes preceded by promoters with target sequences for the alternative sigma factors RpoH and RpoH. The most abundant sRNA was processed in the presence of O but not by O. From this and a second sRNA a conserved 3′‐segment accumulated from a larger precursor. Absence of the RNA chaperone Hfq changed the half‐lives, abundance and processing of O‐affected sRNAs. Orthologues of three sRNA genes are present in different alpha‐proteobacteria, but the majority was unique to or species. Our discovery that abundant sRNAs are affected by O exposure extends the knowledge on the role of sRNAs and Hfq in the regulatory response to oxidative stress.
    Keywords: Active Oxygen -- Analysis ; Genomics -- Analysis ; Molecular Chaperones -- Analysis ; Rna -- Analysis ; Superoxides -- Analysis;
    ISSN: 0950-382X
    E-ISSN: 1365-2958
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