Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

H-NS is an abundant nucleoid-associated protein involved in the maintenance of chromosomal architecture in bacteria. H-NS also has a role in silencing the expression of a variety of environmentally regulated genes during growth under nonpermissive conditions. In this study we demonstrate a role for H-NS in the negative modulation of expression of several genes within the ToxR virulence regulon of Vibrio cholerae. Deletion of hns resulted in high, nearly constitutive levels of expression of the genes encoding cholera toxin, toxin-coregulated pilus, and the ToxT virulence gene regulatory protein. For the cholera toxin- and ToxT-encoding genes, elevated expression in an hns mutant was found to occur in the absence of the cognate activator proteins, suggesting that H-NS functions directly at these promoters to decrease gene expression. Deletion analysis of the region upstream of toxT suggests that an extensive region located far upstream of the transcriptional start site is required for complete H-NS-mediated repression of gene expression. These data indicate that H-NS negatively influences multiple levels of gene expression within the V. cholerae virulence cascade and raise the possibility that the transcriptional activator proteins in the ToxR regulon function to counteract the repressive effects of H-NS at the various promoters as well as to recruit RNA polymerase.
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PMID:Vibrio cholerae H-NS silences virulence gene expression at multiple steps in the ToxR regulatory cascade. 1089 40

The human pathogen Vibrio cholerae is a highly motile organism by virtue of a polar flagellum. Flagellar transcriptional regulatory factors have been demonstrated to contribute to V. cholerae virulence, but the role these factors play in the transcription hierarchy controlling flagellar synthesis has been unclear. The flagellar genes revealed by the V. cholerae genome sequence are located in three large clusters, with the exception of the motor genes, which are found in three additional locations. It had previously been demonstrated that the alternative sigma factor sigma54 and the sigma54-dependent activators FlrA and FlrC are necessary for flagellar synthesis. The V. cholerae genome sequence revealed the presence of a fliA gene, which is predicted to encode the alternative flagellar sigma factor sigma28. A V. cholerae DeltafliA mutant strain is non-motile, and synthesizes a truncated flagellum. Vibrio cholerae FliA complements both V. cholerae and Salmonella typhimurium fliA mutants for motility, consistent with its function as an alternative flagellar sigma factor. Analysis of lacZ transcriptional fusions of the V. cholerae flagellar promoters in both V. cholerae and S. typhimurium identified sigma28-, sigma54-, FlrA- and FlrC-dependent promoters, as well as promoters that were independent of all these factors. Our results support a model of V. cholerae flagellar gene transcription as a novel hierarchy composed of four classes of genes. Class I is composed solely of the gene encoding the sigma54-dependent activator FlrA, which along with the sigma54-holoenzyme form of RNA polymerase activates expression of Class II genes. These genes include structural components of the MS ring, switch and export apparatus, as well as the genes encoding both FliA and FlrC. FlrC, along with sigma54-holoenzyme, activates expression of Class III genes, which include basal body, hook and filament genes. Finally, sigma28-holoenzyme activates expression of Class IV genes, which include additional filament genes as well as motor genes. Thus, this novel V. cholerae flagellar hierarchy has incorporated elements from both the sigma54-dependent Caulobacter crescentus polar flagellar hierarchy and the sigma28-dependent S. typhimurium peritrichous flagellar hierarchy.
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PMID:The novel sigma54- and sigma28-dependent flagellar gene transcription hierarchy of Vibrio cholerae. 1126 Apr 76

Co-ordinate expression of many virulence genes in the human pathogen Vibrio cholerae is under the direct control of the ToxT protein, including genes whose products are required for the biogenesis of the toxin-co-regulated pilus (TCP) and cholera toxin (CTX). This work examined interactions between ToxT and the promoters of ctx and tcpA genes. We found that a minimum of three direct repeats of the sequence TTTTGAT is required for ToxT-dependent activation of the ctx promoter, and that the region from -85 to -41 of the tcpA promoter contains elements that are responsive to ToxT-dependent activation. The role of H-NS in transcription of ctx and tcpA was also analysed. The level of activation of ctx-lacZ in an E. coli hns- strain was greatly increased even in the absence of ToxT, and was further enhanced in the presence of ToxT. In contrast, H-NS plays a lesser role in the regulation of the tcpA promoter. Electrophoretic mobility shift assays demonstrated that 6x His-tagged ToxT directly, and specifically, interacts with both the ctx and tcpA promoters. DNase I footprinting analysis suggests that there may be two ToxT binding sites with different affinity in the ctx promoter and that ToxT binds to -84 to -41 of the tcpA promoter. In vitro transcription experiments demonstrated that ToxT alone is able to activate transcription from both promoters. We hypothesize that under conditions appropriate for ToxT-dependent gene expression, ToxT binds to AT-rich promoters that may have a specific secondary conformation, displaces H-NS and stimulates RNA polymerase resulting in transcription activation.
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PMID:Regulation of gene expression in Vibrio cholerae by ToxT involves both antirepression and RNA polymerase stimulation. 1184 41

Bacteriophage phiKZ is a giant virus that efficiently infects Pseudomonas aeruginosa strains pathogenic to human and, therefore, it is attractive for phage therapy. We present here the complete phiKZ genome sequence and a preliminary analysis of its genome structure. The 280,334 bp genome is a linear, circularly permutated and terminally redundant, A+T-rich double-stranded DNA molecule. The phiKZ DNA has no detectable sequence homology to other viruses and microorganisms, and it does not contain NotI, PstI, SacI, SmaI, XhoI, and XmaIII endonuclease restriction sites. The genome has 306 open reading frames (ORFs) varying in size from 50 to 2237 amino acid residues. According to the orientation of transcription, ORFs are apparently organized into clusters and most have a clockwise direction. The phiKZ genome also encodes six tRNAs specific for Met (AUG), Asn (AAC), Asp (GAC), Leu (TTA), Thr (ACA), and Pro (CCA). A putative promoter sequence containing a TATATTAC block was identified. Most potential stem-loop transcription terminators contain the tetranucleotide UUCG loops. Some genes may be assigned as phage-encoded RNA polymerase subunits. Only 59 phiKZ gene products exhibit similarity to proteins of known function from a diversity of organisms. Most of these conserved gene products, such as dihydrofolate reductase, ribonucleoside diphosphate reductase, thymidylate synthase, thymidylate kinase, and deoxycytidine triphosphate deaminase are involved in nucleotide metabolism. However, no virus-encoded DNA polymerase, DNA replication-associated proteins, or single-stranded DNA-binding protein were found based on amino acid homology, and they may therefore be strongly divergent from known homologous proteins. Fifteen phiKZ gene products show homology to proteins of pathogenic organisms, including Mycobacterium tuberculosis, Haemophilus influenzae, Listeria sp., Rickettsia prowazakeri, and Vibrio cholerae that must be considered before using this phage as a therapeutic agent. The phiKZ coat contains at least 40 polypeptides, and several proteins are cleaved during virus assembly in a way similar to phage T4. Eleven phiKZ-encoded polypeptides are related to proteins of other bacteriphages that infect a variety of hosts. Among these are four gene products that contain a putative intron-encoded endonuclease harboring the H-N-H motif common to many double-stranded DNA phages. These observations provide evidence that phages infecting diverse hosts have had access to a common genetic pool. However, limited homology on the DNA and protein levels indicates that bacteriophage phiKZ represents an evolutionary distinctive branch of the Myoviridae family.
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PMID:The genome of bacteriophage phiKZ of Pseudomonas aeruginosa. 1191 76

In pathogenic Vibrio cholerae, the transmembrane DNA-binding protein ToxR co-ordinates the expression of over 20 genes, including those encoding important virulence factors such as cholera toxin and the toxin-co-regulated pilus. The outer membrane protein OmpT is the only member of the ToxR regulon known to be repressed by ToxR. In this study, we examined the environmental conditions that regulate OmpT expression and demonstrated that ompT transcription is upregulated 14-fold when the bacteria enter late log phase from early log phase. Deletion of the crp gene completely abolishes OmpT expression. Comparison of ompT transcription levels in the isogenic crp-, toxR- and crp-toxR- mutants revealed that (i) in the absence of ToxR, constitutive high-level ompT transcription is dependent on cAMP receptor protein (CRP); (ii) ToxR not only interferes with CRP-dependent ompT activation, but also abolishes the CRP-independent, basal level ompT transcription; thus, the mechanism by which ToxR represses ompT transcription involves both antiactivation and direct repression; (iii) both CRP and ToxR are required for the regulation of OmpT expression by growth phase. To provide further insights into the molecular mecha-nism of CRP-dependent activation of ompT transcription, we demonstrated that CRP-dependent activation requires a CRP binding site centred at -310 of the ompT promoter, without which the interaction of CRP with other CRP binding site(s) more proximal to the promoter results in repression. Mutations in two regions on CRP (AR1 and AR2) that directly contact RNA polymerase (RNAP) abolish activation, suggesting direct interaction of CRP with RNAP from -310 of the ompT promoter via DNA looping.
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PMID:ToxR interferes with CRP-dependent transcriptional activation of ompT in Vibrio cholerae. 1195 6

The AraC homolog ToxT coordinately regulates virulence gene expression in Vibrio cholerae. ToxT is required for transcriptional activation of the genes encoding cholera toxin and the toxin coregulated pilus, among others. In this work we focused on the interaction of ToxT with the tcpA promoter and investigated the mechanism of ToxT-dependent transcriptional activation at tcpA. Deletion analysis showed that a region from -95 to +2 was sufficient for ToxT binding and activation, both of which were simultaneously lost when the deletion was extended to -63. A collection of point mutations generated by error-prone PCR revealed two small regions required for ToxT-dependent transactivation. Binding studies performed with representative mutations showed that the two regions define sites at which ToxT binds to the tcpA promoter region, most likely as a dimer. Results obtained by using a rpoA truncation mutation showed that ToxT-dependent activation at tcpA involves the C-terminal domain of the RNA polymerase alpha subunit. A model of ToxT-dependent transcriptional activation at tcpA is proposed, in which ToxT interacts with two A-rich regions of tcpA centered at -72 and -51 and requires the alpha C-terminal domain of RNA polymerase.
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PMID:Mechanism of ToxT-dependent transcriptional activation at the Vibrio cholerae tcpA promoter. 1227 Aug 9

We have used a hidden Markov model (HMM) to identify the consensus sequence of the RpoD promoters in the genome of Campylobacter jejuni. The identified promoter consensus sequence is unusual compared to other bacteria, in that the region upstream of the TATA-box does not contain a conserved -35 region, but shows a very strong periodic variation in the AT-content and semi-conserved T-stretches, with a period of 10-11 nucleotides. The TATA-box is in some, but not all cases, preceded by a TGx, similar to an extended -10 promoter. We predicted a total of 764 presumed RpoD promoters in the C.jejuni genome, of which 654 were located upstream of annotated genes. A similar promoter was identified in Helicobacter pylori, a close phylogenetic relative of Campylobacter, but not in Escherichia coli, Vibrio cholerae, or six other Proteobacterial genomes, or in Staphylococcus aureus. We used upstream regions of high confidence genes as training data (n=529, for the C.jejuni genome). We found it necessary to limit the training set to genes that are preceded by an intergenic region of >100bp or by a gene oriented in the opposite direction to be able to identify a conserved sequence motif, and ended up with a training set of 175 genes. This leads to the conclusion that the remaining genes (354) are more rarely preceded by a (RpoD) promoter, and consequently that operon structure may be more widespread in C.jejuni than has been assumed by others. Structural predictions of the regions upstream of the TATA-box indicates a region of highly curved DNA, and we assume that this facilitates the wrapping of the DNA around the RNA polymerase holoenzyme, and offsets the absence of a conserved -35 binding motif.
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PMID:RpoD promoters in Campylobacter jejuni exhibit a strong periodic signal instead of a -35 box. 1259 50

Brucella abortus reportedly produces the monocatechol siderophore 2,3-dihydroxybenzoic acid (2,3-DHBA) in response to iron limitation. Nucleotide sequence analysis of the cloned DHBA biosynthesis locus from virulent B. abortus 2308 and genetic complementation of defined Escherichia coli mutants were used to identify the B. abortus genes (designated dhbC, -B, and -A) responsible for synthesis of this siderophore. Reverse transcriptase PCR analysis of total RNA with dhb-specific primers demonstrated that dhbC, -B, and -A are transcribed as components of an operon, together with dhbE, a functional homolog of the Escherichia coli entE gene. Homologs of the E. coli entD and Vibrio cholerae vibH genes were also detected in the flanking regions immediately adjacent to the B. abortus dhbCEBA operon, suggesting that B. abortus has the genetic capacity to produce a more complex 2,3-DHBA-based siderophore. Slot blot hybridization experiments and primer extension analysis showed that transcription of the B. abortus dhbCEBA operon originates from two iron-regulated promoters located upstream of dhbC. Consistent with their iron-dependent regulation, both of the dhbCEBA promoter sequences contain typical consensus Fur-binding motifs. Although previously published studies have shown that 2,3-DHBA production is not required for the establishment and maintenance of chronic spleen infection by B. abortus in mice, experimental infection of pregnant cattle with the B. abortus dhbC mutant BHB1 clearly showed that production of this siderophore is essential for wild-type virulence in the natural ruminant host.
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PMID:Genetic organization and iron-responsive regulation of the Brucella abortus 2,3-dihydroxybenzoic acid biosynthesis operon, a cluster of genes required for wild-type virulence in pregnant cattle. 1265 93

Orthologous proteins can be beneficial for X-ray crystallographic studies when a protein from an organism of choice fails to crystallize or the crystals are not suitable for structure determination. Their amino-acid sequences should be similar enough that they will share the same fold, but different enough so that they may crystallize under alternative conditions and diffract to higher resolution. This multi-species approach was employed to obtain diffraction-quality crystals of the RNA polymerase (RNAP) associated stringent starvation protein A (SspA). Although Escherichia coli SspA could be crystallized, the crystals failed to diffract well enough for structure determination. Therefore, SspA proteins from Yersinia pestis, Vibrio cholerae and Pseudomonas aeruginosa were cloned, expressed, purified and subjected to crystallization trials. The V. cholerae SspA protein failed to crystallize under any conditions tested and the P. aeruginosa SspA protein did not form crystals suitable for data collection. On the other hand, Y. pestis SspA crystallized readily and the crystals diffracted to 2.0 A.
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PMID:Characterization of four orthologs of stringent starvation protein A. 1277 5

Virulence in Vibrio cholerae requires activation of toxT by two membrane-localized activators, TcpP and ToxR. We isolated 12 tcpP activation mutants that fell into two classes: class I mutants were inactive irrespective of the presence of ToxR, and class II mutants exhibited near wild-type activity when coexpressed with ToxR. Most class I mutants had lesions in the wing domain predicted by homology with the winged helix-turn-helix family of activators. Class I mutants bound promoter DNA poorly and were largely unable to interact with ToxR in a crosslinking assay, whereas class II mutants retained physical interaction with ToxR. One mutant constructed in vitro bound DNA poorly but nevertheless responded to ToxR by activating toxT and also maintained ToxR interaction. We propose that ToxR interaction, but not DNA binding, is essential for TcpP function and that the wing domain of TcpP enables contact with ToxR required for productive TcpP-RNA polymerase association.
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PMID:DNA binding and ToxR responsiveness by the wing domain of TcpP, an activator of virulence gene expression in Vibrio cholerae. 1288 1


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