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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)

Ferrochelatase (EC 4.99.1.1), a mitochondrial inner membrane-bound protein, is the terminal enzyme of heme biosynthesis. The cDNA encoding the human mature ferrochelatase was placed under transcriptional control of T7 RNA polymerase in an Escherichia coli expression system. The bacteria produced large amounts of 42 kDa protein which reacted with anti-ferrochelatase antibodies. Expressed ferrochelatase exhibited iron- and zinc-chelating activities, and was found as a soluble protein. The recombinant enzyme has been purified to apparent homogeneity with a high yield, by one-step purification involving Blue-Sepharose chromatography. The purified enzyme which showed a molecular weight of about 40,000 by gel-filtration, functioned in a monomeric form. Km value for both mesoporphyrin IX and protoporphyrin IX with zinc was 12.5 microM. Km values for iron and zinc with mesoporphyrin IX were 6.7 microM and 11.8 microM, respectively. Zinc-chelating activity was markedly stimulated by palmitic acid, but iron-chelating activity remained unchanged. The above results were similar to those reported previously for mammalian ferrochelatase. The overexpression and the simple purification of a functional ferrochelatase exhibiting the same properties as natural enzyme will allow us to elucidate the mechanism of the enzyme reaction and structural changes of the mutated enzyme.
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PMID:Overexpression in Escherichia coli, and one-step purification of the human recombinant ferrochelatase. 803 31

Mammalian ribonucleotide reductase is a heterotetramer formed by the two non-identical homodimers proteins R1 and R2. We have succeeded in expressing the 90-kDa mouse R1 protein in Escherichia coli in an active, soluble form using the T7 RNA polymerase pET vector system. To avoid inclusion bodies, the bacteria were grown at 15 degrees C with minimal concentration of the inducer isopropyl-1-thio-beta-D-galactopyranoside. After a rapid purification procedure, approximately 20 mg of pure R1 protein were obtained per liter of bacterial culture. The concentrated R1 protein solution had a pinkish red color. Spectroscopy in combination with iron and labile sulfur analyses demonstrated that the color originated from an iron-sulfur complex. However, all attempts to demonstrate a function of this complex have been inconclusive. A comparison of the recombinant R1 protein with the corresponding protein purified from calf thymus showed no evidence for glycosylation. Circular dichroism spectroscopy indicated an alpha-helical content of 50%. A flexible COOH-terminal tail of 7 residues in the R2 protein was earlier shown to be essential for binding to the R1 protein. Using a peptide protection assay and photoaffinity labeling, we now show that the R2 protein tail interacts with a region close to the carboxyl terminus of the R1 protein.
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PMID:Purification, characterization, and localization of subunit interaction area of recombinant mouse ribonucleotide reductase R1 subunit. 808 21

The enzyme L-ornithine N5-oxygenase catalyzes the hydroxylation of L-ornithine (L-Orn), which represents an early step in the biosynthesis of the peptidic moiety of the fluorescent siderophore pyoverdin in Pseudomonas aeruginosa. A gene bank of DNA from P. aeruginosa PAO1 (ATCC 15692) was constructed in the broad-host-range cosmid pLAFR3 and mobilized into the L-Orn N5-oxygenase-defective (pvdA) P. aeruginosa mutant PALS124. Screening for fluorescent transconjugants made it possible to identify the trans-complementing cosmid pPV4, which was able to restore pyoverdin synthesis and L-Orn N5-oxygenase activity in the pvdA mutant PALS124. The 17-kb PAO1 DNA insert of pPV4 contained at least two genetic determinants involved in pyoverdin synthesis, i.e., pvdA and pvdC4, as shown by complementation analysis of a set of mutants blocked in different steps of the pyoverdin biosynthetic pathway. Deletion analysis, subcloning, and transposon mutagenesis enabled us to locate the pvdA gene in a minimum DNA fragment of 1.7 kb flanked by two SphI restriction sites. Complementation of the pvdA mutation was under stringent iron control; both pyoverdin synthesis and L-Orn N5-oxygenase activity were undetectable in cells of the trans-complemented mutant which had been grown in the presence of 100 microM FeCl3. The entire nucleotide sequence of the pvdA gene, from which the primary structure of the encoded polypeptide was deduced, was determined. The pvdA structural gene is 1,278 bp; the cloned DNA fragment contains at the 5' end of the gene a putative ribosome-binding site but apparently lacks known promoterlike sequences. The P. aeruginosa L-Orn N5-oxygenase gene codes for a 426-amino-acid peptide with a predicted molecular mass of 47.7 kDa and an isoelectric point of 8.1. The enzyme shows approximately 50% homology with functional analogs, i.e., L-lysine N6-hydroxylase of aerobactin-producing Escherichia coli and L-Orn N5-oxygenase of ferrichrome-producing Ustilago maydis. The pvdA gene was expressed in P. aeruginosa under the control of the T7 promoter. Induction of the T7 RNA polymerase system resulted in parallel increases of the L-Orn N5-oxygenase activity and of the amount of a 47.7-kDa polypeptide. We also constructed a site-specific pvdA mutant by insertion of a tetracycline-resistance cassette in the chromosomal pvdA gene of P. aeruginosa PAO1. Similarly to strain PALS124, the pvdA mutant obtained by gene disruption also disclosed no pyoverdin synthesis, lacked L-Orn N5-oxygenase activity, was complemented by the cloned pvdA gene, and produced pyoverdin at wild-type levels when fed with the biosynthetic precursor L-N5-OH-Orn. Southern blot analysis indicated that genes homologous to pvdA could be located within a 1.7-kb DNA fragment from SphI-digested genomic DNA of different hydroxamate-producing Pseudomonas spp. Our results suggest that omega-amino acid oxygenases have been conserved over a wide evolutionary range and probably evolved from a common ancestor.
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PMID:Cloning and nucleotide sequence of the pvdA gene encoding the pyoverdin biosynthetic enzyme L-ornithine N5-oxygenase in Pseudomonas aeruginosa. 810 24

The alternative sigma factor, RpoN (sigma 54) is responsible for recruiting core RNA polymerase to the promoters of genes required for diverse physiological functions in a variety of eubacterial species. The RpoN protein in Rhodobacter capsulatus is a putative sigma factor specific for nitrogen fixation (nif) genes. Insertional mutagenesis was used to define regions important for the function of the R. capsulatus RpoN protein. Insertions of four amino acids in the predicted helixturn-helix or in the highly conserved C-terminal eight amino acid residues (previously termed the RpoN box), and an in-frame deletion of the glutamine-rich N-terminus completely inactivated the R. capsulatus RpoN protein. Two separate insertions in the second hydrophobic heptad repeat, a putative leucine zipper, resulted in a partially functional RpoN protein. Eight other linkers in the rpoN open reading frame (ORF) resulted in a completely or partially functional RpoN protein. The rpoN gene in R. capsulatus is downstream from the nifHDKU2 genes, in a nifU2-rpoN operon. Results of genetic experiments on the nifU2-rpoN locus show that the rpoN gene is organized in a nifU2-rpoN superoperon. A primary promoter directly upstream of the rpoN ORF is responsible for the initial expression of rpoN. Deletion analysis and insertional mutagenesis were used to define the primary promoter to 50 bp, between 37 and 87 nucleotides upstream of the predicted rpoN translational start site. This primary promoter is expressed constitutively with respect to nitrogen, and it is necessary and sufficient for growth under nitrogen-limiting conditions typically used in the laboratory. A secondary promoter upstream of nifU2 is autoactivated by RpoN and NifA to increase the expression of rpoN, which ultimately results in higher expression of RpoN-dependent genes. Moreover, rpoN expression from this secondary promoter is physiologically beneficial under certain stressful conditions, such as nitrogen-limiting environments that contain high salt (> 50 mM NaCl) or low iron (< 400 nM FeSO4).
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PMID:Structure and expression of the alternative sigma factor, RpoN, in Rhodobacter capsulatus; physiological relevance of an autoactivated nifU2-rpoN superoperon. 814 46

Seven virulence-associated genes have been placed on a genomic map of Pseudomonas aeruginosa PAO1, using pulsed-field electrophoresis, on the basis of the previous physical maps of Romling et al. (U. Romling, M. Duchene, D. Essar, D. Galloway, C. Guidi-Rontani, D. Hill, A. Lazdunski, R. Miller, K. Schleifer, D. Smith, H. Toschka, and B. Tummler, J. Bacteriol. 174:327-330, 1992; U. Romling, D. Grothues, W. Bautsch, and B. Tummler, EMBO J. 8:4081-4089, 1989) and Ratnaningsih et al. (E. Ratnaningsih, S. Dharmsthiti, V. Krishnapillai, A. Morgan, M. Sinclair, and B. W. Holloway, J. Gen. Microbiol. 136:2351-2357, 1990). The new locations for the outer membrane enterobactin iron-siderophore receptor ent gene (41 to 42 min) and the fliA gene (59 to 61 min), which encodes a minor sigma factor of RNA polymerase, are given. The pilA (the pilin structural gene), pilR (a pilin regulatory gene), and rpoN (encoding another minor sigma factor of RNA polymerase) genes map together at 71 to 75 min, locations correcting the previously reported values (V. Shortridge, M. Pato, A. Vasil, and M. Vasil, Infect. Immun. 59:3596-3603, 1990). The fbp gene (28 to 29 min), which encodes an outer membrane ferripyochelin-binding protein of low molecular weight, and the fliC gene (64 to 66 min), the flagellin structural gene, were determined to lie in the previously reported locations.
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PMID:Localization of the virulence-associated genes pilA, pilR, rpoN, fliA, fliC, ent, and fbp on the physical map of Pseudomonas aeruginosa PAO1 by pulsed-field electrophoresis. 845 66

The CO dehydrogenase enzyme complex from Methanosarcina thermophila contains a corrinoid/iron-sulfur enzyme composed of two subunits (delta and gamma). The cdhD and cdhE genes, which encode the delta and gamma subunits, respectively, were cloned and sequenced. The cdhD gene is upstream of and separated by 3 bp from cdhE. Both genes are preceded by apparent ribosome-binding sites. Northern (RNA) blot and primer extension analyses indicated that cdhD and cdhE are cotranscribed from a promoter located several kilobases upstream of cdhD. The putative CdhD and CdhE sequences are 37% identical to the sequences deduced from the genes encoding the beta and alpha subunits of the corrinoid/iron-sulfur enzyme from Clostridium thermoaceticum. The CdhE sequence had a four-cysteine motif with the potential to bind a 4Fe-4S cluster previously identified in the corrinoid/iron-sulfur enzyme by electron paramagnetic resonance spectroscopy. A T7 RNA polymerase/promoter system was used to produce CdhD and CdhE independently in Escherichia coli. The purified CdhD protein was reconstituted with hydroxocobalamin in the base-on configuration. The purified CdhE protein exhibited an Fe-S center and base-off cobalamin binding in which the benzimidazole base nitrogen atom was no longer a lower axial ligand to the cobalt atom.
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PMID:Characterization of the cdhD and cdhE genes encoding subunits of the corrinoid/iron-sulfur enzyme of the CO dehydrogenase complex from Methanosarcina thermophila. 855 Apr 51

Four rpoD hybridizing signals have been identified in the chromosome of Brevibacterium lactofermentum. Two rpoD-like genes, sigA and sigB, have been cloned and sequenced, and they encode principal sigma factors of the RNA polymerase. The deduced amino acid sequences of SigA and SigB showed very high similarities to those of Mycobacterium smegmatis MysA and MysB proteins, respectively, and also to those of HrdB proteins from different Streptomyces species. SigA and SigB maintain the conserved motifs of sigma 70-like principal sigma factors. sigB is closely linked to the dtxR gene (encoding a repressor of iron-regulated promoters homologous to the diphtheria toxin repressor from Corynebacterium diphtheriae.
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PMID:Multiple sigma factor genes in Brevibacterium lactofermentum: characterization of sigA and sigB. 855 Apr 80

In response to the intracellular iron concentration Pseudomonas fluorescens M114 coordinately regulates the production of pseudobactin M114, its cognate receptor PbuA, and a casein protease. Transcriptional initiation of this coordinate iron-stress response requires the sigma factor PbrA. PbrA is a member of the ECF (Extracytoplasmic function) subgroup of the sigma 70 family of eubacterial RNA polymerase sigma factors. Regulatory studies of the pbrA gene utilising promoter-lacZ transcriptional fusions demonstrate that expression of pbrA dictates the cellular response to iron. pbrA is transcribed in all phases of iron-limited growth but maximally at late-logarithmic to stationary phase. pbrA expression is independent of autoregulatory control but is strictly repressed in iron-rich conditions in a Fur-dependent fashion. Constitutive expression of pbrA from an inducible tac promoter permits the induction of PbrA-dependent transcription and pseudobactin M114 biosynthesis in high-iron conditions. A PbrA consensus sequences was derived from significant DNA sequence homologies observed within the "-25 bp" and "-16 bp" regions conserved among all PbrA-dependent promoters. The predicted PbrA target promoter consensus is homologous for the promoter recognition sites for other environmentally responsive ECF sigma factors.
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PMID:Transcriptional regulation of the iron-responsive sigma factor gene pbrA. 856 87

An open reading frame located upstream of the bacterioferritin gene in Escherichia coli encodes a hypothetical 64-residue protein [Andrews, S.C., Harrison, P.C., & Guest, J.R. (1989) J. Bacteriol. 171, 3940-3947)]. The spacing of the four cysteine residues in this hypothetical protein is identical to that in a region of NIFU, a [2Fe-2S] protein found in nitrogen-fixing bacteria [Fu, W., Jack, R.F., Morgan, T.V., Dean, D.R., & Johnson, M.K. (1994) Biochemistry 33, 13455-13463)]. The NIFU-like E. coli gene was cloned and overexpressed with a C-terminal "His tag" in E. coli using the T7 RNA polymerase/promoter system, and the protein was purified by metal-chelate affinity chromatography. UV-vis absorption and EPR spectra together with iron and amino acid analyses conclusively established that this NIFU-like E. coli protein contains one [2Fe-2S] cluster which can exist in at least two oxidation levels: +2 for the as-purified protein, and +1 for dithionite-reduced protein. Size-exclusion chromatography established that this His-tagged [2Fe-2S] protein is monomeric in solution. Affinity chromatography demonstrated specific complex formation between bacterioferritin (Bfr) and this NIFU-like [2Fe-2S] protein, which is dubbed Bfd. An open reading frame encoding a homologous Bfd is located near a Bfr gene in at least one other bacterium. Bfd may, therefore, constitute a general redox and/or regulatory component participating in the iron storage or mobilization functions of Bfr.
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PMID:A [2Fe-2S] protein encoded by an open reading frame upstream of the Escherichia coli bacterioferritin gene. 863 72

The heterologous expression and spectroscopic characterization of the [2Fe-2S] ferredoxin from the sexually transmitted human parasite Trichomonas vaginalis is described. Using oligonucleotide primers based on the deduced DNA sequence, the gene encoding the ferredoxin was amplified by polymerase chain reaction and cloned into a T7 RNA polymerase expression vector. Expression of the gene in Escherichia coli host HMS174(DE3) resulted in the high level production of the protein with the correctly assembled iron-sulfur cluster. The absorption, circular dichroism, resonance Raman, and EPR spectra of the recombinant protein revealed many differences from those of other [2Fe-2S] ferredoxins. The redox potential of the protein (-347 mV versus normal hydrogen electrode) was also determined. Whereas the amino acid sequence of T. vaginalis ferredoxin showed greatest homology to the [2Fe-2S] ferredoxins found in bacteria and vertebrate mitochondria which function in cytochrome P450 oxidation pathways, the spectroscopic properties showed substantial dissimilarity. Differences in the biophysical properties and function of T. vaginalis ferredoxin are proposed to result from the characteristic amino acid sequence of the parasite protein near the cysteine residues that ligate the valence-localized Fe(III) site of the reduced cluster.
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PMID:Expression and spectroscopic characterization of the hydrogenosomal [2Fe-2S] ferredoxin from the protozoan Trichomonas vaginalis. 866 34

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