EC:2.7.7.6 - FACTA Search

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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 bacterial tetracycline-resistance determinant from Tn10 encodes a 43 kDa membrane protein, TetA, responsible for active efflux of tetracyclines. The tetA gene was cloned behind a T7 promoter/lac operator in a plasmid that provided fusion of TetA to a polyhistidine-carboxy terminal tail. A second plasmid provided a regulated T7 RNA polymerase. The specific activity of the TetA fusion protein was between 10-40% that of the wild-type protein as assayed by tetracycline resistance in cells and by transport in membrane vesicles. The fusion protein, overproduced approximately 3-13-fold, was purified by nickel chelation chromatography. Calculations from circular dichroism spectra of the purified protein solubilized in dodecylmaltoside gave an alpha-helix content of 54-64%, close to the 68% predicted from the amino acid sequence by hydropathy analysis (12 membrane-spanning helices) for the native protein in the membrane bilayer. Fluorescence studies showed binding activity of the purified protein to its substrate, the tetracycline analogue 13-(cyclopentylthio)-5-hydroxy-6-alpha-deoxytetracycline. These findings suggested that the purified protein was in a native state.
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PMID:Purification of the Tn10-specified tetracycline efflux antiporter TetA in a native state as a polyhistidine fusion protein. 882 47

The domains of the PB1 subunit of the influenza virus polymerase involved in the interaction with the PB2 and PA subunits have been defined by mutational analysis of PB1 protein. The experimental approach included in vivo competition of the PB1 activity, two-hybrid interaction assays and in vitro binding to PB1-specific matrices. Mutants of the PB1 gene including N-terminal, C-terminal and internal deletions and single amino acid insertions were constructed. They were unable to support polymerase activity in a reconstituted transcription-replication system and were tested for their competition activity when expressed in excess over wild-type PB1 protein. The pattern of competition obtained suggested that the N-terminal 78 amino acids and the sequences between positions 506 and 659 in the PB1 protein are involved in the interaction with the other components of the polymerase. We identified the N-terminal region of PB1 protein as responsible for the interaction with the PA subunit by two-hybrid assays in mammalian cells. N- and C-terminal fragments of the PB1 protein were expressed as His-tagged proteins and purified on Ni2+-NTA resin. Such PB1-specific matrices were used in binding assays in vitro with metabolically labelled PB2 and PA proteins and mutants thereof. The results obtained indicated that the N-terminal and the C-terminal regions of PB1 are responsible for binding to PA and PB2 subunits, respectively. With this information and previously published results we propose a preliminary model for the architecture of the influenza virus RNA polymerase.
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PMID:Identification of two separate domains in the influenza virus PB1 protein involved in the interaction with the PB2 and PA subunits: a model for the viral RNA polymerase structure. 894 35

The TATA binding protein (TBP) binds to the -30 region of eukaryotic and archaea promoters, where it assembles a transcription complex. For those genes transcribed by RNA polymerase II, transcription factor TFIIA binds TBP and positively regulates its activity, including enhancing TBP/ TATA interactions. Since little is known about the dynamic interplay among TFIIA, TBP and DNA, we set out to examine the stability of these interactions. Using the nitrocellulose filter binding assay, the koff of recombinant human TBP from TATA and non-specific DNA was determined to be 5.5(+/-0.1) x 10(-5) s-1 (t1/2 = 210 minutes) and 5.8(+/-0.1) x 10(-4) s-1 (t1/2 = 20 minutes), respectively. TFIIA/TBP complexes, containing either HeLa-derived or recombinant human TFIIA, possessed a nearly tenfold lower koff when bound to TATA. Interactions of TFIIA with DNA upstream of the TATA box did not appear to play a major role in stabilizing TBP/TATA interactions. Instead, the upstream DNA contacts appeared to be important for stabilizing the association of TFIIA with the TBP/TATA complex as measured in electrophoretic mobility shift assays: koff of TFIIA decreased from 1.4(+/-0.1) x 10(-3) s-1 (t1/2 = eight minutes) to 2.4(+/-0.2) x 10(-4) s-1 (t1/2 = 49 minutes) when upstream DNA contacts were allowed. The stability of TFIIA/TBP interactions was measured using a rapid "pull-down" assay, which employed-nickel agarose and polyhistidine-tagged TFIIA. In the absence of DNA, TFIIA dissociated from TBP with a koff = 4.9(+/-0.6) x 10(-3) s-1 (t1/2 = 2.4 minutes), which varied with solution conditions.
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PMID:Dynamic interplay of TFIIA, TBP and TATA DNA. 930 55

The Streptomyces coelicolor rpoC gene, that encodes the beta' subunit of RNA polymerase, was isolated using the Escherichia coli rpoC gene as a hybridization probe. Comparison of the predicted amino acid sequence of the S. coelicolor beta' subunit to those characterized from other bacteria revealed three distinct subfamilies of beta' subunits, one of which consists of the S. coelicolor subunit and those from Mycobacterium leprae and Mycoplasma genitalium. Using site-directed mutagenesis, the carboxy terminus of the S. coelicolor beta' subunit was modified to contain six histidine residues. The histidine-tagged gene, rpoCHIS, was used to replace the wild-type allele in the chromosome of S. coelicolor and S. lividans. These strains were unaffected in growth and sporulation, demonstrating that the histidine-tagged RNA polymerase was competent to carry out all essential in-vivo functions. During a 1-day procedure, highly purified RNA polymerase was obtained by nickel-NTA agarose affinity chromatography followed by heparin-sepharose chromatography. Using in-vitro run-off transcription assays, the affinity purified RNA polymerase was shown to initiate transcription correctly from the S. lividans galP1 and galP2 promoters, and the Bacillus subtilus veg and ctc promoters. An extension of this procedure yielded highly-purified core RNA polymerase. To facilitate introduction of the rpoCHIS allele into other genetic backgrounds, a mutation in the adjacent gene, rpoB (rifA), conferring rifampin-resistance, was isolated in S. coelicolor to provide a genetic marker to follow transfer of the rpoCHIS allele. The use of this affinity chromatography procedure, in combination with the ability to introduce the rpoCHIS allele into different Streptomyces strains by transformation, will greatly facilitate the in-vitro analysis of transcription in members of this genus.
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PMID:Characterization of the rpoC gene of Streptomyces coelicolor A3(2) and its use to develop a simple and rapid method for the purification of RNA polymerase. 932 38

RNA polymerase II purified from the fission yeast Schizosaccharomyces pombe consists of 10 species of subunit polypeptide. We introduced a histidine cluster tag sequence into the chromosomal rpb1 and rpb3 genes, which encode subunit 1 (Rpb1) and subunit 3 (Rpb3), respectively, and purified the RNA polymerase by Ni2+ affinity chromatography. After stepwise dissociation of the Rpb1- and Rpb3-tagged RNA polymerases fixed on Ni2+-resin by increasing concentrations of urea or guanidium hydrochloride, Rpb2-Rpb3-Rpb11 or Rpb2-Rpb3-Rpb11-Rpb10 complexes were obtained. Since the complex consisting of Rpb2, Rpb3, and Rpb11 cannot be dissociated even after treatment with 6 M urea buffer, we propose that this complex represents a core subassembly of the RNA polymerase II, analogous to the alpha2beta complex in the assembly of Escherichia coli RNA polymerase. Both the Rpb2-Rpb3-Rpb11 complex and the free Rpb1 protein showed DNA binding activity, although the affinity was weaker compared with the intact RNA polymerase.
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PMID:RNA polymerase II subunits 2, 3, and 11 form a core subassembly with DNA binding activity. 932 16

Nickel-chelating lipid monolayers were used to generate two-dimensional crystals from yeast RNA polymerase I that was histidine-tagged on one of its subunits. The interaction of the enzyme with the spread lipid layers was found to be imidazole dependent, and the formation of two-dimensional crystals required small amounts of imidazole, probably to select the specific interaction of the engineered tag with the nickel. Two distinct preparations of RNA polymerase I tagged on different subunits yielded two different crystal forms, indicating that the position of the tag determines the crystallization process. The orientation of the enzyme in both crystal forms is correlated with the location of the tagged subunits in a three-dimensional model which shows that the tagged subunits are in contact with the lipid layer.
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PMID:Specific interaction and two-dimensional crystallization of histidine tagged yeast RNA polymerase I on nickel-chelating lipids. 951 48

Stoichiometry of the third largest subunit (Rpb3) of the yeast RNA polymerase II is a subject of continuing controversy. In this work we utilized immunoaffinity and nickel-chelate chromatographic techniques to isolate the RNA polymerase II species assembled in vivo in the presence of the His6-tagged and untagged Rpb3. The distribution pattern of tagged and untagged subunits among the RNA polymerase II molecules is consistent with a stoichiometry of 1 Rpb3 polypeptide per molecule of RNA polymerase. Deletion of either alpha-homology region (amino acids 29-55 or 226-267) from the Rpb3 sequence abolished its ability to assemble into RNA polymerase II in vivo.
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PMID:Rpb3, stoichiometry and sequence determinants of the assembly into yeast RNA polymerase II in vivo. 955 54

A gene library from the thermophilic eubacterium Rhodothermus marinus, strain ITI 378, was constructed in pUC18 and transformed into Escherichia coli. Of 5400 transformants, 3 were active on carboxymethylcellulose. Three plasmids conferring cellulase activity were purified and were all found to contain the same cellulase gene, celA. The open reading frame for the celA gene is 780 base pairs and encodes a protein of 260 amino acids with a calculated molecular mass of 28.8 kDa. The amino acid sequence shows homology with cellulases in glycosyl hydrolase family 12. The celA gene was overexpressed in E. coli when the pET23, T7 phage RNA polymerase system was used. The enzyme showed activity on carboxymethylcellulose and lichenan, but not on birch xylan or laminarin. The expressed enzyme had six terminal histidine residues and was purified by using a nickel nitrilotriacetate column. The enzyme had a pH optimum of 6-7 and its highest measured initial activity at 100 degrees C. The heat stability of the enzyme was increased by removal of the histidine residues. It then retained 75% of its activity after 8 h at 90 degrees C.
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PMID:Cloning, sequencing and overexpression of a Rhodothermus marinus gene encoding a thermostable cellulase of glycosyl hydrolase family 12. 958 Dec 91

A highly ordered program of temporal and spatial gene activation during sporulation in Bacillus subtilis is governed by the principal RNA polymerase, and RNA polymerases containing at least five developmental sigma factors appearing successively during sporulation. This report describes a rapid procedure for extracting RNA polymerase from sporulating B. subtilis cells, which involves the construction of hexahistidine tagged beta' subunit of RNA polymerase and the isolation of RNA polymerase holoenzyme with Ni2+-NTA resin. In in vitro transcription of various promoters with the RNA polymerase thus purified, we observed the temporal change of each RNA polymerase activity during sporulation. This procedure enables isolation of RNA polymerase within 4h, starting with cell pellets. Our results indicated that a principal sigma factor, sigmaA, could be detected in a holoenzyme form during all the stages of growth and sporulation, while the other sigma factors sigmaH, sigmaE, sigmaF, sigmaG, and sigmaK involved in sporulation could be detected sequentially during sporulation. Moreover, Spo0A, the central transcription factor of commitment to sporulation, was also co-purified with RNA polymerase at early stages of sporulation.
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PMID:Rapid isolation of RNA polymerase from sporulating cells of Bacillus subtilis. 979 9

The Escherichia coli genome encodes genes for seven different sigma subunit species while only having single genes for the alpha, beta, and beta' subunits that make up the RNA polymerase core enzyme. The various sigma factors compete for binding to the core enzyme, upon which they confer promoter DNA-specific transcription initiation to the polymerase. We have mapped a major interaction site between one of the sigma species, sigma70, and beta'. Using far-Western blotting analysis of chemically cleaved and genetically engineered protein fragments, we have identified a N-terminal fragment of beta' (residues 60-309) that could bind sigma70. We were able to more precisely map the interaction domain to amino acid residues 260-309 of beta' using nickel nitrilotriacetic acid co-immobilization assays.
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PMID:Localization of a sigma70 binding site on the N terminus of the Escherichia coli RNA polymerase beta' subunit. 981 48

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