Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A synthetic gene encoding the mature spinach- chloroplast O-acetylserine (thiol)-lyase was constructed and expressed in an Escherichia coli strain carrying the T7 RNA polymerase system. The pure recombinant protein was obtained at high yield (6 mg/l cell culture) using a new purification procedure that includes affinity chromatography on Green A agarose. Its specific activity was of the order of 1000 U/mg, and its physical properties were similar to those previously reported for the natural enzyme isolated from spinach chloroplasts. In particular the recombinant enzyme, as for the natural enzyme, behaved as a homodimer composed of two identical subunits each of Mr 35000. From steady-state kinetic studies using sulfide or 5-thio(2-nitrobenzoate) (Nbs) as alternative nucleophilic co-substrates, the enzyme exhibited positive kinetic co-operativity with respect to O-acetylserine [Ser(Ac)] in the presence of sulfide and a negative kinetic co-operativity in the presence of Nbs. Binding of Ser(Ac) to the enzyme was also investigated by absorbance and fluorescence measurements to obtain insight into the role of pyridoxal 5'-phosphate and of the single tryptophan residue (Trp176) present in the enzyme molecule. Addition of Ser(Ac) to the enzyme provoked the disappearance of the 409-nm absorbance band of the pyridoxal 5'-phosphate Schiff base and the appearance of two new absorbance bands, the one located between 320 nm and 360 nm and the other centered at 470 nm. Also, the fluorescence emission of the pyridoxal 5'-phosphate Schiff base was quenched upon addition of Ser(Ac) to the enzyme. These changes were most presumably due to the formation of a Schiff base intermediate between alpha-aminoacrylate and the pyridoxal 5'-phosphate cofactor. The fluorescence emission of Trp176 was also quenched upon Ser(Ac) binding to the enzyme. Quantitative analysis of the absorbance and fluorescence equilibrium data disclosed a co-operative behavior in Ser(Ac) binding, in agreement with the steady-state kinetic results. Fluorescence quenching experiments with the acrylamide and iodide revealed that the indole ring of Trp176 was largely exposed and located within the pyridoxal 5'-phosphate active site. These results are consistent with the finding that the native enzyme is composed of two identical subunits. Yet, presumably due to subunit-subunit interactions, the enzyme exhibits two non-equivalent pyridoxal-5'-phosphate-containing active sites.
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PMID:Spinach chloroplast 0-acetylserine (thiol)-lyase exhibits two catalytically non-equivalent pyridoxal-5'-phosphate-containing active sites. 861 76

All organisms have adapted to environmental changes by acquiring various functions controlled by gene regulation. In bacteria, a number of specific responses have been found to confer cell survival in various nutrient-limited conditions, and under physiological stresses such as high or low temperature, extreme pH, radiation, and oxidation (for review, see Neidhardt et al., 1987). In this article, I introduce an Escherichia coli (E. coli) global response induced by superoxide stress, the soxRS regulon. The functions controlled by this system consist of a wide variety of enzymes such as manganese-containing SOD (Mn-SOD); glucose 6-phosphate dehydrogenase (G6PD), the DNA repair enzyme endonuclease IV, fumarase C, NADPH:ferredoxin oxidoreductase, and aconitase. This response is positively regulated by a two-stage control system in which SoxR iron-sulfur protein senses exposure to superoxide and nitric oxide, and then activates transcription of the soxS gene, whose product stimulates the expression of the regulon genes. Our recent finding indicates that soxS transcription is initiated in a manner dependent on the rpoS gene encoding RNA polymerase sigma factor, theta s, in response to entering the stationary phase of growth. With this information, mechanisms for prokaryotic coordinating gene expression in response to superoxide stress and in stationary phase are discussed.
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PMID:Two-stage gene regulation of the superoxide stress response soxRS system in Escherichia coli. 895 73

The cDNA encoding a protein that interacts with the mouse homologue of the yeast RNA polymerase II (polII) subunit, RPB11, and the human polII subunit, hRPB14, has been isolated by protein interaction cloning. Its deduced amino acid sequence has 96% homology to the human third largest polII subunit, hRPB33 [Pati and Weissman (1990) J. Biol. Chem. 265, 8400 8405]. Therefore, we conclude that the cloned cDNA encodes the mouse third largest polII subunit, mRPB31. Isolation of cDNA by protein interaction cloning provides evidence supporting the hypothesis, first proposed for human polII assembly [Pati (1994) Gene 145, 289-292], that the mRPB31/mRPB14 heterodimer, rather than the mRPB31 homodimer, forms in the mouse polII assembly. Indeed, in the yeast two-hybrid system, mRPB31 was shown to fail to form homodimer.
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PMID:Protein interaction cloning in yeast of the mouse third largest RNA polymerase II subunit, mRPB31. 903 5

We have previously demonstrated that the core promoter of rat ribosomal RNA gene (rDNA) contains an E-box-like sequence to which the core promoter binding factor CPBF binds and that the 44 kDa subunit of this protein is immunologically related to USF1, the helix--loop--helix-zipper DNA binding protein. Further, we showed that RNA polymerase I (pol I) transcription in vitro is competed by oligonucleotides containing USF-binding site, which suggested a key role for USF in rDNA transcription. To prove the potential role of USF in pol I transcription in vivo, USF1 and USF2 homodimers and USF1/USF2 heterodimer were overexpressed in CHO cells by transfection of the respective cDNAs. Co-transfection of a plasmid containing rDNA followed by primer extension analysis showed that overexpression of USF1 and USF2 as homodimers resulted in inhibition of rDNA transcription by as much as 85-90% whereas overexpression of USF1/USF2 in the heterodimeric form activated transcription approximately 3.5-fold. Transfection of mutant USF2 cDNA that is devoid of the basic DNA-binding domain produced only minimal inhibition of rDNA transcription. These data show that USF can modulate transcription of rRNA gene in vivo by functioning as a repressor (homodimer) or activator (heterodimer) of pol I transcription in vivo and suggest that inhibition of rDNA transcription may be responsible for the antiproliferative action of USF homodimers.
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PMID:The dual role of helix-loop--helix-zipper protein USF in ribosomal RNA gene transcription in vivo. 905 57

The TyrR Regulon of Escherichia coli comprises eight transcription units whose expression is modulated by the TyrR protein. This protein, which is normally a homodimer in solution, can self-associate to form a hexamer, bind with high affinity to specific DNA sequences (TyrR boxes) and interact with the alpha subunit of the RNA polymerase. These various reactions are influenced by the abundance of one or more of the aromatic amino acids, tyrosine, phenylalanine or tryptophan and by the specific location and sequence of the TyrR boxes associated with each transcription unit. This review describes how these activities can be combined in different ways to produce a variety of responses to varying levels of the three aromatic amino acids.
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PMID:The various strategies within the TyrR regulation of Escherichia coli to modulate gene expression. 907 41

An oxidant stress has been shown to prevail in experimental and clinical nephrotic syndrome. Such oxidant stress may be induced by a reduced activity of antioxidant systems. We examined the altered expression of manganese-superoxide dismutase (Mn-SOD), an antioxidant enzyme, in patients with idiopathic nephrotic syndrome, in whom an increased oxidant stress had been demonstrated. The Mn-SOD activities in peripheral blood mononuclear cells obtained from 12 patients with active nephrotic syndrome (6.0 +/- 1.1 years of age, mean +/- SE) and hypoproteinemia were 42% lower (p < 0.05) than in 12 control subjects (5.5 +/- 0.5 years of age) with normal serum total protein concentrations. Reverse-transcriptase polymerase chain reaction also demonstrated that Mn-SOD messenger RNA expression in the patients with nephrotic syndrome was, on average, 59% lower than in control subjects. Because expressions of some genes are sensitive to serum, the serum dependency of Mn-SOD gene transcription was studied in glomerular endothelial cells transfected with a luciferase reporter gene fused with a rat Mn-SOD DNA fragment of -806 to +22 bp of the transcription initiation site (-806:+22). When these cells were exposed to different concentrations of fetal bovine serum (0.5% to 15%), the transcriptional activities determined by luciferase activities were proportional to serum concentrations. This serum-dependent transcriptional activation was also demonstrated by the fragment (-220:+22) but not by the fragment (-220:-20). When glomerular endothelial cells transfected with the fragment (-220:+22) were treated with 5% serum from patients with active nephrotic syndrome, transcriptional activation was more than 80% less than that by 5% serum from control subjects without nephrosis. These results indicate that Mn-SOD gene transcription is regulated at least in part by serum, and that the serum-dependent transcription of the gene is diminished in patients with idiopathic nephrotic syndrome. The regulatory region of serum-dependent gene transcription resides within its early promoter region. Our findings suggest that down-regulation of antioxidant enzyme transcription may contribute increased oxidant stress in idiopathic nephrotic syndrome.
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PMID:Down-regulation of manganese-superoxide dismutase gene expression in idiopathic nephrotic syndrome. 915 91

The recombinant extracellular copper/zinc superoxide dismutase of the filarial parasite Acanthocheilonema viteae (AVSOD2) was cloned in an expression vector under control of the bacteriophage T7 promoter and the resulting plasmid pLAT7 was introduced in tha aroA attenuated Salmonella typhimurium vaccine strain SL3261:pYZ84. This vaccine strain carries a chromosomally integrated two phase expression system containing inducible T7 RNA polymerase. The recombinant AVSOD2 was efficiently expressed, constituting up to 5% of the total bacterial protein. Furthermore, the plasmid vector containing the AVSOD2 cDNA was shown to be stable over a long period of time in the vaccine strain without antibiotic selection in vitro and in vivo. Jirds which were immunised orally with the recombinant vaccine strain expressing the A. viteae EC-SOD produced a strong humoral immune response.
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PMID:Immunogenicity of the extracellular copper/zinc superoxide dismutase of the filarial parasite Acanthocheilonema viteae delivered by a two-phase vaccine strain of Salmonella typhimurium. 1032 Jun 19

Expression of the Tn21 mercury resistance (mer) operon is controlled by a metal-sensing repressor-activator, MerR. When present, MerR always binds to the same position on the DNA (the operator merO), repressing transcription of the structural genes merTPCAD in the absence of Hg(II) and inducing their transcription in the presence of Hg(II). Although it has two potential binding sites, the purified MerR homodimer binds only one Hg(II) ion, employing Cys82 from one monomer and Cys117 and Cys126 from the other. When MerR binds Hg(II), it changes allosterically and also distorts the merO DNA to facilitate transcriptional initiation by sigma70 RNA polymerase. Wild-type MerR is highly specific for Hg(II) and is 100- and 1, 000-fold less responsive to the chemically related group 12 metals, Cd(II) and Zn(II), respectively. We sought merR mutants that respond to Cd(II) and obtained 11 Cd(II)-responsive and 5 constitutive mutants. The Cd(II)-responsive mutants, most of which had only single-residue replacements, were also repression deficient and still Hg(II) responsive but, like the wild type, were completely unresponsive to Zn(II). None of the Cd(II)-responsive mutations occurred in the DNA binding domain or replaced any of the key Cys residues. Five Cd(II)-responsive single mutations lie in the antiparallel coiled-coil domain between Cys82 and Cys117 which constitutes the dimer interface. These mutations identify 10 new positions whose alteration significantly affect MerR's metal responsiveness or its repressor function. They give rise to specific predictions for how MerR distinguishes group 12 metals, and they refine our model of the novel domain structure of MerR. Secondary-structure predictions suggest that certain elements of this model also apply to other MerR family regulators.
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PMID:Cd(II)-responsive and constitutive mutants implicate a novel domain in MerR. 1034 59

The 549-amino acid yeast RNA triphosphatase Cet1p catalyzes the first step in mRNA cap formation. Cet1p consists of three domains as follows: (i) a 230-amino acid N-terminal segment that is dispensable for catalysis in vitro and for Cet1p function in vivo; (ii) a protease-sensitive segment from residues 230 to 275 that is dispensable for catalysis but essential for Cet1p function in vivo; and (iii) a catalytic domain from residues 275 to 539. Sedimentation analysis indicates that purified Cet1(231-549)p is a homodimer. Cet1(231-549)p binds in vitro to the yeast RNA guanylyltransferase Ceg1p to form a 7.1 S complex that we surmise to be a trimer consisting of two molecules of Cet1(231-549)p and one molecule of Ceg1p. The more extensively truncated protein Cet1(276-549)p, which cannot support cell growth, sediments as a monomer and does not interact with Ceg1p. An intermediate deletion protein Cet1(246-549)p, which supports cell growth only when overexpressed, sediments principally as a discrete salt-stable 11.5 S homo-oligomeric complex. These data implicate the segment of Ceg1p from residues 230 to 275 in regulating self-association and in binding to Ceg1p. Genetic data support the existence of a Ceg1p-binding domain flanking the catalytic domain of Cet1p, to wit: (i) the ts growth phenotype of 2mu CET1(246-549) is suppressed by overexpression of Ceg1p; (ii) a ts alanine cluster mutation CET1(201-549)/K250A-W251A is suppressed by overexpression of Ceg1p; and (iii) 15 other cet-ts alleles with missense changes mapping elsewhere in the protein are not suppressed by Ceg1p overexpression. Finally, we show that the in vivo function of Cet1(275-549)p is completely restored by fusion to the guanylyltransferase domain of the mouse capping enzyme. We hypothesize that the need for Ceg1p binding by yeast RNA triphosphatase can by bypassed when the triphosphatase catalytic domain is delivered to the RNA polymerase II elongation complex by linkage in cis to the mammalian guanylyltransferase.
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PMID:A conserved domain of yeast RNA triphosphatase flanking the catalytic core regulates self-association and interaction with the guanylyltransferase component of the mRNA capping apparatus. 1042 48

ProP is an integral membrane transporter of proline, glycine betaine, and several other osmoprotecting compounds. Fis plus RpoS collaborate to promote a burst of proP transcription in late exponential growth phase. This brief period of ProP synthesis enables stationary phase cells to cope with a potential hyperosmotic shock. Fis activates the RpoS (sigma(38))-dependent proP P2 promoter by binding to a site within the promoter region centered at -41 and thus functions as a class II activator. We show here that activation by Fis at this promoter is completely dependent upon the alpha-CTD of RNA polymerase and that the activation domain on Fis is localized to a four amino acid ridge on the surface of Fis adjacent to the helix-turn-helix DNA binding domain in only one subunit of the homodimer. Fis mutants containing amino acid substitutions within this region are defective in cooperative binding interactions with the sigma(38)-form of RNA polymerase. Some of these substitutions also alter interactions with DNA sequences flanking the core binding site, but we show that changes in Fis-mediated curvature do not affect promoter activity. We conclude that the same amino acids are used by Fis to activate transcription from a class I (-71, rrnB P1) and class II (-41, proP P2) location, but this region is distinct from that required to regulate the Hin site-specific DNA inversion reaction.
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PMID:Localization of amino acids required for Fis to function as a class II transcriptional activator at the RpoS-dependent proP P2 promoter. 1061 Jul 62


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