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)

The molecular basis for the greatly elevated expression of the cir gene (encoding the colicin I receptor) in cells unable to maintain a critical supply of intracellular iron was investigated by genetic and biochemical means. Deletion analysis of the cloned promoter region allowed delineation of sequences necessary for control of transcription initiating at the two promoters, P1 and P2. Gel retardation assays were used to demonstrate both binding of purified Fur (ferric uptake regulation) protein to the iron control region and lack of binding to DNA fragments which are not involved in cir regulation. An operator sequence spanning 43 to 47 base pairs and completely encompassing the two promoters was identified by DNase I protection experiments (footprinting), with binding occurring in a metal-dependent fashion. Thus, during iron-replete growth, Fur appears to act as a repressor of transcription by blocking formation of a DNA-RNA polymerase complex, analogous to the mechanism previously described for regulation of the aerobactin operon (V. de Lorenzo, S. Wee, M. Herrero, and J.B. Neilands, J. Bacteriol. 169:2624-2630, 1987). Characterized and putative Fur recognition sites from several genes were analyzed and classified by statistical methods.
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PMID:Mechanism for iron-regulated transcription of the Escherichia coli cir gene: metal-dependent binding of fur protein to the promoters. 264 21

The expression of the diphtheria tox228 gene encoding the nontoxic, serologically related CRM228 mutant diphtheria toxin has been analyzed in Corynebacterium diphtheriae and Escherichia coli. The diphtheria toxin promoter has been used to direct the expression of beta-galactosidase in E.coli, and the efficiency of promotion has been compared to that obtained with the lac promoter. Expression in C.diphtheriae is known to be dependent on the absence of iron, and we present for the first time direct evidence that this regulation occurs at the level of transcription. The 5' end of toxin mRNA maps at the same position in C.diphtheriae and E.coli, suggesting identical sequences to be recognized by C.diphtheriae and E.coli RNA polymerase. The diphtheria toxin promoter carries at position -34 a TTGATT sequence closely related to the E.coli -35 consensus sequence and in the -14 to -8 region a set of overlapping sequences with complete or partial homology to the E.coli -10 consensus sequence.
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PMID:Diphtheria toxin promoter function in Corynebacterium diphtheriae and Escherichia coli. 392 42

Both the single DNA-dependent RNA polymerase found in zinc-deficient (-Zn) Euglena gracilis and the RNA polymerase III from zinc-sufficient (+Zn) cells have been isolated by methods previously used to purify polymerases I and II [Falchuk, K. H., Mazus, B., Ulpino, L., & Vallee, B. L. (1976) Biochemistry 15, 4468; Falchuk, K. H., Mazus, B., Ulpino, L., & Vallee, B. L. (1977) Biochem. Biophys. Res. Commun. 74, 1206]. Like class II polymerases, the enzyme from -Zn organisms elutes from DNA-cellulose and phosphocellulose with 0.6 M NaCl and 0.35 M NH4Cl, respectively. It is inhibited by 8-hydroxyquinoline, 8-hydroxyquinoline-5-sulfonic acid, alpha,alpha'-bipyridyl, dipicolinic acid, and 1,10-phenanthroline (OP); 4,7-phenanthroline, the nonchelating analogue, does not inhibit. The pKI(OP) of this enzyme is identical with that of polymerase II but distinct from those of polymerases I and III. Elemental analysis confirms that zinc is the functional metal while copper, manganese, iron, and magnesium are absent. However, the -Zn enzyme is at least 4 orders of magnitude more resistant to alpha-amanitin (alpha-A) than the class II polymerase. Further, its response to alpha-A is unlike that of either polymerase I or polymerase III. Thus, -Zn cells contain a single, alpha-amanitin-resistant (alpha-Ar) RNA polymerase, whose behavior otherwise resembles that of the alpha-amanitin-sensitive polymerase II.
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PMID:Zinc deficiency and the Euglena gracilis chromatin: formation of an alpha-amanitin-resistant RNA polymerase II. 392 88

Highly purified preparations of the DNA-dependent RNA polymerase obtained from Escherichia coli contain about 2 g-atoms of tightly bound zinc per mol (molecular weight 370,000) of enzyme. When the purified enzyme is fractionated on Sephadex G-150 or G-200, correlation is observed between the zinc and enzymic activity. Although some of the preparations examined also contain iron, copper, and magnesium, the content of these metal ions show no consistent correlation with RNA polymerase activity. Initiation of RNA synthesis is specifically inhibited by 1,10-phenanthroline. Less-effective inhibition is observed for other chelating agents or for a nonchelating phenanthroline analog. The analog also exhibits a pattern of inhibition differing from that characteristic of 1,10-phenanthroline. Binding of purine nucleoside triphosphates at the lower-affinity (K(d) = 0.15 mM) site may also be prevented by the addition of 1,10-phenanthroline. One or both of the bound zinc atoms may, therefore, participate in the initiation of RNA synthesis.
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PMID:The presence and possible role of zinc in RNA polymerase obtained from Escherichia coli. 494 29

Transferrin receptor (TfR) mRNA expression is tightly linked to intracellular iron levels. Upon iron deprivation, the iron regulatory protein (IRP) stabilizes TfR mRNA by binding to stem-loop structures in its 3'-untranslated region, whereas increased iron levels result in inactivation of the mRNA-binding protein and rapid degradation of TfR mRNA. Although IRP and the regulation of its RNA binding activity have been studied intensively, little is known about the mechanism of TfR mRNA degradation. In order to get more information about factors involved in this process we investigated the in vivo IRP-RNA interaction and the effect of transcription inhibitors on the iron-dependent decay of TfR mRNA. Here we demonstrate that part of the active IRP co-localizes with TfR mRNA to the rough endoplasmic reticulum. High intracellular iron levels led to a drastic reduction of this active RNA-bound IRP in vivo, indicating that IRP dissociates prior to TfR mRNA decay. Furthermore, the transcription inhibitor actinomycin D and translation inhibitor cycloheximide suppressed TfR mRNA degradation but did not interfere with the IRP dissociation step. Other inhibitors of RNA polymerase II had no effect on iron-dependent degradation of TfR mRNA. However, high concentrations of alpha-amanitin known to block transcription by RNA polymerase III interfered with mRNA decay suggesting the involvement of polymerase III transcripts in the degradation pathway.
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PMID:Effect of transcription inhibitors on the iron-dependent degradation of transferrin receptor mRNA. 749 76

We have analyzed the molecular mechanism of regulation of the ferric dicitrate transport system in Escherichia coli (Ec), by studying the transcription of the regulatory and structural genes under various environmental conditions, and by determining the location of their transcriptional start points and promoter regions. We report here that the main species observed in Northern hybridization analyses were a 2.5-kb mRNA, encoded by the outer membrane protein receptor gene fecA, and a 1.5-kb mRNA encoded by a region including the fecIR genes. The synthesis of the 2.5-kb fecA mRNA is regulated by both citrate and iron. Furthermore, transcription of fecA is dependent on the presence of FecI. The promoter region for the fecA mRNA, a likely site of action for FecI, is not related to the consensus promoter region for sigma 70 RNA polymerase in Ec K-12. However, it shows greatest similarity with promoters of genes regulated by a new sub-family of sigma factors, i.e., the extracytoplasmic function (ECF) sigma factors, which are associated with the expression of genes involved in extracytoplasmic functions, suggesting that FecI may act as a specialized sigma factor. We also show that the fecB,C,D,E transport genes are linked in operon fashion to fecA. Since the levels of the fecB,C,D,E RNAs are extremely low, as compared to the level of fecA mRNA, it is likely that processing from the 3' end must occur and stop near the end of fecA where a hairpin structure is located.
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PMID:Transcription of the region encoding the ferric dicitrate-transport system in Escherichia coli: similarity between promoters for fecA and for extracytoplasmic function sigma factors. 755 62

Sophisticated biochemical networks allow organisms such as bacteria and insects to switch from very rapid growth and development in ideal environments to dormancy during severely unfavorable conditions. These switches may be accompanied by abrupt changes in oxidation/reduction involving reactive oxygen species (ROS). ROS have the potential of damaging nucleic acids, proteins, and membranes. In Escherichia coli, certain genetically regulated circuits (regulons) turn on synthesis of anti-oxidant enzymes to protect against distinct ROS excesses (superoxide, hydrogen peroxide, organic or lipid peroxides, etc.). As examples, the soxRS regulon controls synthesis of Mn-superoxide dismutase, oxyR controls catalase HPI, rpoS positively regulates HPII, and fur regulates several oxidative reactions that involve iron uptake. Our studies have focused on the regulatory role of rpoS, known to be a sigma factor (sigma 38) that combines with RNA polymerase and is a regulator of those gene products needed to protect cells during dormancy. Since insect cells, during both active growth and dormancy, endure severe environments, analogous protective gene products may be induced. Examples are presented of insect anti-oxidant metabolism, including those involved in the aging process. In addition, we searched several DNA and protein sequence data banks to compare resemblances between anti-oxidant gene products of bacteria and insects.
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PMID:Genetic mechanisms involved in cellular recovery from oxidative stress. 760 42

SoxR protein of Escherichia coli is activated by superoxide-generating agents or nitric oxide as a powerful transcription activator of the soxS gene, whose product activates approximately 10 other promoters. SoxR contains non-heme iron essential for abortive initiation of transcription in vitro. Here we show that this metal dependence extends to full-length transcription in vitro. In the presence of E. coli sigma 70 RNA polymerase, iron-containing SoxR mediates open complex formation at the soxS promoter, as determined using footprinting with Cu-5-phenyl-1,10-phenanthroline. We investigated the nature of the SoxR iron center by chemical analyses and electron paramagnetic resonance spectroscopy. Dithionite-reduced Fe-SoxR exhibited an almost axial paramagnetic signature with g values of 2.01 and 1.93 observable up to 100 K. These features, together with quantitation of spin, iron, and S2-, and hydrodynamic evidence that SoxR is a homodimer in solution, indicate that (SoxR)2 contains two [2Fe-2S] clusters. Treatment of Fe-SoxR with high concentrations of dithiothreitol caused subtle changes in the visible absorption spectrum and blocked transcriptional activity without generating reduced [2Fe-2S] centers, but was also associated with the loss of iron from the protein. However, lowering the thiol concentration by dilution allowed spontaneous regeneration of active Fe-SoxR.
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PMID:Binuclear [2Fe-2S] clusters in the Escherichia coli SoxR protein and role of the metal centers in transcription. 767 13

SoxR protein governs the soxRS (superoxide response) regulon of Escherichia coli by becoming a transcriptional activator when the cells are exposed to compounds that mediate univalent redox reactions, many of which produce superoxide as a by-product. SoxR was overproduced and purified to near homogeneity from a strain bearing an expression vector. It could bind specifically to the soxS operator even in the absence of RNA polymerase. The aerobically purified protein, which is readily autooxidized, could activate the transcription of soxS DNA even without exposure to known inducing agents. SoxR is a globular homodimer. It contains one [2Fe-2S] cluster per polypeptide chain, as demonstrated by optical and EPR spectroscopy combined with stoichiometric analysis of iron content, unpaired-electron-spin density, and reduction by dithionite. The protein is active in its oxidized ([2Fe-2S]2+) state. The presence of a prosthetic group capable of univalent redox reactions may help to explain the activation of the regulon in vivo by compounds that can mediate such reactions.
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PMID:Overproduction and physical characterization of SoxR, a [2Fe-2S] protein that governs an oxidative response regulon in Escherichia coli. 773 Mar 38

Cells of Pseudomonas aeruginosa secrete a fluorescent yellow-green siderophore, pyoverdine, when grown under iron-deficient conditions. We describe here the cloning and characterization of a gene, pvdS, which is required for this process. The pvdS gene is required for expression from promoters of at least two pyoverdine synthesis genes and can cause expression from these promoters in Escherichia coli, where they are otherwise inactive. Sequencing of pvdS revealed that it is a member of a subfamily of RNA polymerase sigma factors which direct the synthesis of extracellular products by bacteria. The pvdS gene is expressed only in iron-starved bacteria, and in E. coli cells at least, expression is regulated by the Fur repressor protein. We propose that in iron-rich cells of P. aeruginosa, Fur binds to the pvdS promoter and prevents expression of the gene; under conditions of iron starvation, repression is relieved and PvdS is made, reprogramming the cells for pyoverdine synthesis.
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PMID:Cloning and characterization of pvdS, a gene required for pyoverdine synthesis in Pseudomonas aeruginosa: PvdS is probably an alternative sigma factor. 775 Dec 84


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