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)

Rsd (regulator of sigma D) is an anti-sigma factor for the Escherichia coli RNA polymerase sigma(70) subunit. The contact site of Rsd on sigma(70) was analyzed after mapping of the contact-dependent cleavage sites by Rsd-tethered iron-p-bromoacetamidobenzyl EDTA and by analysis of the complex formation between Ala-substituted sigma(70) and Rsd. Results indicate that the Rsd contact site is located downstream of the promoter -35 recognition helix-turn-helix motif within region 4, overlapping with the regions involved in interaction with both core enzyme and sigma(70) contact transcription factors.
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PMID:Mapping of the Rsd contact site on the sigma 70 subunit of Escherichia coli RNA polymerase. 1129 18

The virus-specific components (nsP1-nsP4) of Semliki Forest virus RNA polymerase are synthesized as a large polyprotein (P1234), which is cleaved by a virus-encoded protease. Based on mutagenesis studies, nsP2 has been implicated as the protease moiety of P1234. Here, we show that purified nsP2 (799 amino acids) and its C-terminal domain Pro39 (amino acids 459-799) specifically process P1234 and its cleavage intermediates. Analysis of cleavage products of in vitro synthesized P12, P23, and P34 revealed cleavages at sites 1/2, 2/3, and 3/4. The cleavage regions of P1/2, P2/3, and P3/4 were expressed as thioredoxin fusion proteins (Trx12, Trx23, and Trx34), containing approximately 20 amino acids on each side of the cleavage sites. After exposure of these purified fusion proteins to nsP2 or Pro39, the reaction products were analyzed by SDS-polyacrylamide gel electrophoresis, mass spectrometry, and amino-terminal sequencing. The expected amino termini of nsP2, nsP3, and nsP4 were detected. The cleavage at 3/4 site was most efficient, whereas cleavage at 1/2 site required 5000-fold more of Pro39, and 2/3 site was almost resistant to cleavage. The activity of Pro39 was inhibited by N-ethylmaleimide, Zn(2+), and Cu(2+), but not by EDTA, phenylmethylsulfonyl fluoride, or pepstatin, in accordance with the thiol proteinase nature of nsP2.
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PMID:Site-specific protease activity of the carboxyl-terminal domain of Semliki Forest virus replicase protein nsP2. 1141 May 98

UhpA, a member of the NarL family of response regulators, activates transcription of the Escherichia coli uhpT gene for the sugar phosphate transporter UhpT in response to extracellular glucose-6-phosphate. UhpA binds with different affinities to adjacent regions in the uhpT promoter, termed the strong-binding (S) region from -80 to -50 and the weak-binding (W) region from -50 to -32. Transcription activation by UhpA is stimulated by the catabolite gene activator protein (CAP)-cyclic AMP complex and depends on the C-terminal domains of the RNA polymerase RpoA and RpoD subunits. Because single-base substitutions in the UhpA-binding region had little effect on promoter activity, nucleotide substitutions in successive 4-bp blocks throughout this region were examined for their effects on promoter activation and UhpA binding. Changes in three of four blocks within the W region substantially impaired the ability of UhpA to bind to this region, to drive expression of a uhpT-lacZ reporter, and to support UhpA-dependent in vitro transcription. These W region variant promoters were strongly stimulated by CAP. Changes in several parts of the S region impaired UhpA binding to both the S and W regions and decreased promoter activity in vivo and in vitro. Thus, binding of UhpA to the W region is crucial for UhpA-dependent activation and depends on occupancy of the S region. None of these substitutions eliminated promoter function. The orientation of UhpA-binding sites was assessed by the affinity cleavage method. The iron chelate FeBABE [iron (S)-1-(p-bromoacetamidobenzyl) EDTA] was covalently attached to engineered cysteine residues near the DNA-binding region in UhpA. Hydroxyl radicals generated by the iron chelate attached at position 187 resulted in DNA strand cleavages in two clusters of sites located in the middle of the S and W regions. These results are consistent with the binding of two dimers of UhpA. Each dimer binds to an inverted repeat of monomer-binding sites with the consensus sequence CCTGRR, where R is A or G, and each is separated by 6 bp. It is likely that members of the NarL family bind to dyad targets, in contrast to the binding of OmpR family response regulators to direct-repeat targets.
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PMID:Mutational scanning and affinity cleavage analysis of UhpA-binding sites in the Escherichia coli uhpT promoter. 1197 97

Gluconacetobacter diazotrophicus produces levan from sucrose by a secreted levansucrase (LsdA). A levanase-encoding gene ( lsdB), starting 51 bp downstream of the lsdA gene, was cloned from strain SRT4. The lsdB gene (1605 bp) encodes a protein (calculated molecular mass 58.4 kDa) containing a putative 36-amino-acid signal peptide at the N-terminus. The deduced amino acid sequence shares 34%, 33%, 32%, and 29% identities with levanases from Actinomyces naeslundii, Bacillus subtilis, Paenibacillus polymyxa, and Bacteroides fragilis, respectively. The lsdB expression in Escherichia coli under the control of the T7 RNA polymerase promoter resulted in an active enzyme which hydrolyzed levan, inulin, 1-kestose, raffinose, and sucrose, but not melezitose. Levanase activity was maximal at pH 6.0 and 30 degrees C, and it was not inhibited by the metal ion chelator EDTA or the denaturing agents dithiothreitol and beta-mercaptoethanol. The recombinant LsdB showed a fourfold higher rate of hydrolysis on levan compared to inulin, and the reaction on both substrates resulted in the successive liberation of the terminal fructosyl residues without formation of intermediate oligofructans, indicating a non-specific exo-levanase activity.
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PMID:Molecular cloning and expression in Escherichia coli of an exo-levanase gene from the endophytic bacterium Gluconacetobacter diazotrophicus SRT4. 1202 20

The DNA recognition sequence for the transcriptional activator, CII protein, which is critical for lysogenization by bacteriophage lambda, overlaps the -35 region of the P(RE) promoter. Data presented here show that activation by CII does not change the pattern of cleavage of the -35 region of P(RE) by iron (S)-1-(p-bromoacetamidobenzyl)-EDTA (Fe-BABE) conjugated to the sigma subunit of RNA polymerase (RNAP). Thus, the overall interaction between sigma and the -35 region of P(RE) is not significantly altered by CII. Therefore, the effects of the activator on RNAP binding to the promoter and formation of open complexes do not reflect a large-scale qualitative change in the nature of the interaction between RNAP and promoter DNA. The ability of CII to stimulate lysogenization is reduced in the presence of plasmid-borne rpoA variants encoding alanine substitutions at several positions in the C-terminal domain of the alpha subunit. However, it has not been possible to identify residues that directly affect the interaction between the activator and RNA polymerase.
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PMID:Interactions among CII protein, RNA polymerase and the lambda PRE promoter: contacts between RNA polymerase and the -35 region of PRE are identical in the presence and absence of CII protein. 1487 63

The mechanism for elongation catalyzed by human RNA polymerase II (RNAP II) has been analyzed using millisecond phase transient state kinetics. Here, we apply a running start, two-bond, double-quench protocol. Quenching the reaction with EDTA indicates NTP loading into the active site followed by rapid isomerization. HCl quenching defines the time of phosphodiester bond formation. Model-independent and global kinetic analyses were applied to simulate the RNAP II mechanism for forward elongation through the synthesis of two specific phosphodiester bonds, modeling rate data collected over a wide range of nucleoside triphosphate concentrations. We report adequate two-bond kinetic simulations for the reaction in the presence of TFIIF alone and in the presence of TFIIF+TFIIS, providing detailed insight into the RNAP II mechanism and into processive RNA synthesis. RNAP II extends an RNA chain through a substrate induced-fit mechanism, termed NTP-driven translocation. After rapid isomerization, chemistry is delayed. At a stall point induced by withholding the next templated NTP, RNAP II fractionates into at least two active and one paused conformation, revealed as different forward rates of elongation. In the presence of TFIIF alone or in the presence of TFIIF+TFIIS, rapid rates are very similar; although, with TFIIF alone the complex is more highly poised for forward synthesis. Based on steady-state analysis, TFIIF was thought to suppress transcriptional pausing, but this view is misleading. TFIIF supports elongation and suppresses pausing by stabilizing the post-translocated elongation complex. When TFIIS is present, RNA cleavage and transcriptional restart pathways are supported, but TFIIS has a role in suppression of transient pausing, which is the most important contribution of TFIIS to elongation from a stall position.
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PMID:Transcription factors IIF and IIS and nucleoside triphosphate substrates as dynamic probes of the human RNA polymerase II mechanism. 1535 37

From December 2004 to March 2005, 27 Klebsiella pneumoniae clinical isolates that were positive by the imipenem-EDTA double-disk synergy test and that exhibited a single macro-restriction pattern were recovered in two distinct Greek hospitals. The isolates carried a transferable bla(VIM-1) metallo-beta-lactamase gene in a class 1 integron. Reverse transcriptase PCR showed that the gene was similarly expressed in low- and high-level carbapenem-resistant isolates, indicating the existence of additional resistance mechanisms. The clonal spread of VIM-1-producing K. pneumoniae strains in distinct regions where up to now bla(VIM-2) and bla(VIM-4) alleles were common is worrisome.
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PMID:Outbreaks in distinct regions due to a single Klebsiella pneumoniae clone carrying a bla VIM-1 metallo-{beta}-lactamase gene. 1620 14

In a previous study, the authors have shown cytokeratin 8 (CK8) and epitope H ultrastructural localization in breast cancer cell nuclei. Epitope H contains an O-linked N-acetylglucosamine (O-GlcNAc) residue in a specific conformation and/or environment recognized by monoclonal antibody H. In this study, double immunogold labeling of CK8 and epitope H combined with the EDTA regressive staining method was applied in biopsy material from infiltrating ductal breast carcinomas and fibroadenomas, to localize both antigens in correlation to RNPs distribution in the nuclear subcompartments of cancer cells. CK8 and epitope H were localized mostly over condensed chromatin, whereas staining was weaker over interchromatin granule clusters and perichromatin fibers. These results revealed, the distribution of CK8 in the nucleus as MAR-binding protein, contributing in the organization of the nuclear DNA in the neoplastic cell, as well as the distribution of O-GlcNAc glycosylated polypeptides bearing the epitope H. The latter finding indicates that these polypeptides might play a significant role in the neoplastic behavior of breast cancer cells because they colocalize in the same nuclear subcompartments with proteins modified by O-GlcNAc, such as hnRNPs G and A1, RNA polymerase II, its transcription factors, and the oncogene product of c-myc. These proteins are known to participate in coordinated transcription/RNA processing events, contributing in the neoplastic behavior of breast cancer cells.
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PMID:Nuclear localization of cytokeratin 8 and the O-linked N-acetylglucosamine-containing epitope H in epithelial cells of infiltrating ductal breast carcinomas: a combination of immunogold and EDTA regressive staining methods. 1682 19

Spo0A, a classical two-component-type response regulator in Bacillus subtilis, binds to a specific DNA sequence found in many promoters to repress or activate the transcription of over 100 genes. On the spoIIG promoter, one of the Spo0A binding sites, centered at position -40, overlaps a consensus -35 element that may also interact with region 4 of the sigma A (sigma(A)) subunit of RNA polymerase. Molecular modeling corroborated by genetic evidence led us to propose that the binding of Spo0A to this site repositions sigma(A) region 4 on the promoter. Therefore, we used a chemical nuclease, p-bromoacetamidobenzyl-EDTA-Fe, that was covalently tethered to a single cysteine in region 4 of sigma(A) to map the position of sigma(A) on the promoter. The results indicated that in the absence of Spo0A, sigma(A) region 4 of the RNA polymerase was located near the -35 element sequence centered at position -40. However, in the presence of Spo0A, sigma(A) region 4 was displaced downstream from the -35 element by 4 bp. These and other results support the model in which the binding of Spo0A to the spoIIG promoter stimulates promoter utilization by repositioning prebound RNA polymerase and stabilizing the repositioned RNA polymerase-promoter complex at a new position that aligns sigma(A) region 2 with the -10 region sequences of the promoter, thus facilitating open complex formation.
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PMID:Promoter activation by repositioning of RNA polymerase. 1829 15

Hydroxyl radicals generated from a variety of methods, including not only synchrotron radiation but also Fenton reactions involving chelated iron, have become an accepted macromolecular footprinting tool. Hydroxyl radicals react with proteins via multiple mechanisms that lead to both polypeptide backbone cleavage events and side chain modifications (e.g., hydroxylation and carbonyl formation). The use of site-specifically tethered iron chelates can reveal protein-protein interactions, but the interpretation of such experiments will be strengthened by improving our understanding of how hydroxyl radicals produced at a point on a protein react with other protein sites. We have developed methods for monitoring carbonyl formation on proteins as a function of distance from a hydroxyl generator, iron-(S)-1-[p-(bromoacetamido)benzyl]EDTA (FeBABE), conjugated to an engineered cysteine residue. After activation of the chelated iron with ascorbate and peroxide produces new protein carbonyl groups, their positions can be identified using element-coded affinity tagging (ECAT), with carbonyl-specific tags {e.g., rare earth chelates of (S)-2-[4-(2-aminooxy)acetamidobenzyl]-1,4,7,10-tetraazacyclododecane-N,N',N'',N'''-tetraacetic acid (AOD)} that allow for affinity purification, identification, and relative quantitation of oxidation sites using mass spectrometry. Intraprotein oxidation of single-cysteine mutants of Escherichia coli sigma(70) by tethered FeBABE was used to calibrate the reach of hydroxyl radical by comparison to the crystal structure; the application to protein-protein interactions was demonstrated using the same sigma(70) FeBABE conjugates in complexes with the RNA polymerase core enzyme. The results provide fundamental information for interpreting protein footprinting experiments in other systems.
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PMID:Mapping protein-protein interactions by localized oxidation: consequences of the reach of hydroxyl radical. 1935 99


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