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 nature of the inhibition by salt (KCl) of DNA-dependent RNA polymerase from T4 phage-infected Escherichia coli (T4 enzyme) was studied using holoenzyme preparations, core enzyme and sigma fractions obtained by phosphocellulose column chromatography, and sigma fractions further purified by gradient centrifugation in the presence and absence of 6 M urea. We showed with holoenzyme preparations that salt inhibits the formation of rifampicin-resistant preinitiation complexes. The inhibition was considerably reduced when a nonionic detergent (particularly of the Triton series) was included in the reaction mixtures. With T4 core enzyme and T4 sigma fractions together with the same fractions from uninfected cells (host enzyme fractions) and different DNA templates, we showed that the T4 sigma fraction plays a role in the salt-sensitive activity with T4 DNA. The salt sensitivity of the T4 sigma fraction was antagonized by Triton; it was not a function of sigma fractions isolated from phage cultures infected in the presence of chloramphenicol. As reported previously (Stevens, A. (1973), Biochem. Biophys. Res. Commun. 54, 488), the T4 sigma fraction inhibited the activity of host sigma when they were present together in reaction mixtures, particularly in the presence of salt. T4 sigma further purified by centrifugation in glycerol gradients had the same properties as the cruder fraction, and the T4-specific polypeptide of mol wt 10000 (Stevens, A. (1972), Proc. Natl. Acad. Sci. U.S.A. 69, 603) was found in the same fractions. If the glycerol gradients contained 6 M urea, the mol wt 10000 polypeptide was separated from the salt-stimulated sigma. Fractions containing the small polypeptide could be added back to produce the salt-inhibitory effects. The inhibitory activity of both the crude sigma fraction and the fractions containing the small polypeptide was inactivated at 65 degrees C. The results suggest that the mol wt 10000 protein is a salt-promoted inhibitor, but the small amounts of it which are present in purified fractions of the T4 enzyme have not yet allowed its isolation in large enough quantities to permit a detailed study of its properties.
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PMID:Characterization of an inhibitor causing potassium chloride sensitivity of an RNA polymerase from T4 phage-infected Escherichia coli. 110 66

1. RNA polymerase from Escherichia coli is selectively and strongly retained by a heparin-substituted agarose and can be eluted therefrom by a neutral buffer containing 0.6 M salt. The method is applicable to relatively crude preparations of the enzyme on a preparative scale giving highly purified RNA polymerase in excellent yield. The enzyme obtained by this procedure shows the highest specific activity so far reported and is pure and enriched in factor sigma as indicated by dodecylsulfate gel electrophoresis. 2. Based on the differential affinity of the subunits of the enzyme for the heparin-carrying gel matrix, a method for separation of alpha, beta' + beta and sigma subunits by application of urea and salt-containing buffers is described. Upon recombination and dialysis with urea-free buffer 40-50% of the enzyme activity is restored.
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PMID:Rapid isolation of highly active RNA polymerase from Escherichia coli and its subunits by matrix-bound heparin. 110 37

A description is provided for the effects of various concentrations of NaCl, MgC12, and urea on the precipitation of native and denatured DNA by histones. The solubility of complexes between total histones and fractions F1, F2a, F2b, and F3 with denatured and partially denatured DNA was greater than that of the complexes between histones and native DNA. The complexes formed between histones and denatured DNA were soluble in excess histones, unlike those formed between histones and native DNA. Electrophoresis of the individual histone fractions through a polyacrylamide gel layer containing DNA led to the determination of the amount of histones bound to native and denatured DNA under conditions of saturation (0.04 ionic strength). It was established that 1 mug of native DNA binds 2.4, 2.8, and 2.5 mug of histones F1, F2a, F2b and F3, respectively. The denatured DNA binds 1.4-1.5 times less of each histone fraction than does native DNA, but the binding seems stronger. It has been demonstrated that the histones inhibit to a lesser extent the template activity of denatured and partially denatured (about 5% disruption of hydrogen bonds) DNA in comparison with native DNA in an RNA polymerase system. It has been suggested that the properties of the complexes formed between histones and denatured or partially denatured DNA, may underlie the control mechanism for genome activity in the cells of higher organisms.
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PMID:The interaction of histones with native and denatured DNA. 112 1

A special class of non-histone protein ("tight protein") is identified in purified HeLa cell chromatin on the basis of its failure to dissociate from the DNA at very high ionic strength (2.5 M NaCl-5.0 M urea), where over 92% of the total chromatin protein is released. The tight proteins are insoluble in 0.4 N H2SO4 and lack histones as determined by polyacrylamide gel electrophoresis. They have molecular weights between 14,000 and 85,000 with over 70% of the polypeptide chains between 14,000 and 30,000 mol wt. This is the same size range as the non-histone proteins which others have found to display species-specific DNA binding in vitro. There is approximately one molecule of tight protein per 275 DNA base pairs. The tight proteins are characterized by much higher rates of labeling with amino acids than the histones and non-histone chromatin proteins that are dissociated from the DNA by high ionic strength, but they have the lowest phosphorylation levels. Chromatin fractionation experiments were performed to investigate the distribution of tight proteins between template-active and template-inactive regions. Under specific conditions, spleen DNase (DNase II) selectively shears those portions of HeLa cell chromatin that contain nascent RNA transcripts. This nascent RNA-enriched chromatin fraction also contains a high level of the proteins known to be complexed with heterogeneous nuclear RNA in ribonucleoprotein particles and contains over 70% of the RNA polymerase activity of total chromatin. When this method was employed to investigate the distribution of tight proteins, they were found to be almost entirely confined to the template-inactive fraction. Although these experiments do not elucidate the precise function of these proteins, they identify, for the first time, a particular subclass of non-histone chromosomal protein which is distributed asymmetrically between transcriptionally active and inactive chromatin regions.
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PMID:A special class of non-histone protein tightly complexed with template-inactive DNA in chromatin. 114 2

1. The effects of ionizing radiation on the activity of calf thymus templates were examined in a Escherichia coli RNA polymerase system. 2. The template activity of native and 2 M NaCl-5M urea-treated deoxyribonucleoproteins was enhanced by relatively low doses of irradiation, while that of 2 M NaCl-treated deoxyribonucleoprotein was not enhanced by irradiation. 3. The template activity of purified DNA was markedly decreased by irradiation, while that of native deoxyribonucleoprotein, 2 M NaCl-treated, and 2 M NaCl-5 M urea-treated ones were slightly decreased at a higher dose range. The doses for 50% inactivation of these templates were 1.3, 210, 140, and approximately 200 krad, respectively.
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PMID:Effects of irradiation on RNA synthesis primed by calf thymus deoxyribonucleoprotein treated with salt and salt-urea. 125 79

Influenza virus RNA polymerase catalyzes multiple step reactions in transcription and replication of the genome RNA. The core enzyme is composed of each one of the three P proteins, PB1, PB2 and PA (Honda et al. (1990) J. Biochem. 107, 624-628). For detailed analysis of the role of each P protein and of the functional domains on each P polypeptide, we expressed individual P proteins in cultured insect cells after infection with recombinant baculoviruses. PB1 and PB2 accumulated in cell nuclei whereas PA stayed in cytoplasm. Both the PB1 and PB2 proteins were purified from aggregates in the respective nuclear extract, and the PA was partially purified from the cytoplasm. RNA polymerase was reconstituted by mixing the three P proteins in a urea solution and then dialyzing against a reconstitution buffer. The reconstituted enzyme was able to transcribe model RNA templates. Minus-sense RNA was a better template than plus-sense RNA.
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PMID:Reconstitution of influenza virus RNA polymerase from three subunits expressed using recombinant baculovirus system. 162 19

The DNA-dependent RNA polymerase containing two intrinsic cobalt ions (Co2-RPase) instead of the naturally occurring zinc was purified from Escherichia coli cells grown in zinc-depleted, cobalt-enriched media. Longitudinal NMR relaxation rates of the H2 and H8 protons of ATP were measured in the absence and presence of up to 92 microM Co2-RPase. No enhancement of the proton relaxation rates was observed in the presence of cobalt-containing enzyme, suggesting that the ATP substrate does not undergo rapid exchange at a site close to either of the intrinsic cobalt ions. This result is in contrast to that previously observed when Co2+ was incorporated into RPase by an in vitro procedure involving partial urea denaturation of the protein.
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PMID:1H NMR study of the interaction of ATP with Escherichia coli RNA polymerase containing in vivo-incorporated Co(II). 195 44

RNA polymerase II lacking the fourth and seventh largest subunits (pol II delta 4/7) was purified from Saccharomyces cerevisiae strain rpb-4, in which the gene for the fourth largest subunit is deleted. pol II delta 4/7 was indistinguishable from wild-type pol II (holoenzyme) in promoter-independent initiation/chain elongation activity (400-800 nmol of nucleotide incorporated/10 min/mg of protein at 22 degrees C), in rate of chain elongation (20-25 nucleotides/s), and in the recognition of pause sites in the DNA template. In contrast to pol II holoenzyme, pol II delta 4/7 was inactive in promoter-directed initiation of transcription in vitro. The addition of an equimolar complex of the fourth and seventh largest subunits, purified from pol II holoenzyme by ion-exchange chromatography in the presence of urea, restored promoter-directed initiation activity to pol II delta 4/7. The transcriptional activator protein Gal4-VP16 could also elicit promoter-directed initiation by pol II delta 4/7 from a promoter with a Gal4 binding site. Complementation was observed between extracts of strain rpb-4, lacking the fourth largest subunit, and strain Y260-1, with a defect in the largest subunit. These extracts were individually inactive, but a mixture would support promoter-directed initiation. The fourth and seventh largest subunits may, therefore, shuttle between polymerase molecules.
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PMID:Two dissociable subunits of yeast RNA polymerase II stimulate the initiation of transcription at a promoter in vitro. 198 24

The fiber proteins of adenovirus serotype 2 Ad2 and serotype 3 Ad3 and structural protein IIIa of wild type Ad2 and Ad2 ts 112 mutant were cloned and expressed in E. coli. For the expression of both fiber proteins a gene expression system based on bacteriophage T7 RNA polymerase was used. The expressed proteins constituted 1-3% of total host cell protein. Both proteins were insoluble and inclusion bodies were observed. The proteins could be purified from cellular debris by extraction with 6 M urea followed by chromatography in the presence of diminishing concentration of urea. The folding of recombinant fiber proteins was assessed by sensitivity to proteases and gel filtration. Both proteins were synthetized as trimers. Ad2 recombinant fiber has a much less compact structure than native Ad2 fiber, since on gel filtration it is excluded before the native fiber. It is also much more sensitive to chymotrypsin digestion than the native protein. Contrary to that, Ad3 recombinant fiber is much less sensitive to proteolytic cleavage and on gel filtration has the same exclusion volume as the trimeric native fiber of Ad3.
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PMID:Structural proteins of adenovirus. Expression in Escherichia coli. 208 15

A bacterial expression system in Escherichia coli has been developed that produces as much as 10 mg/l of culture of the VH protein associated with monoclonal antibodies specific for the 5-dimethylaminonaphthalene-2-sulfonyl (Dns) group. This system has been applied to the expression of the VH genes derived from a low-affinity, IgM-producing hybridoma and from a high-affinity, IgG-producing cell line. The plasmid vectors (contributed by Dr William F. Studier) utilize a T7 expression cassette whose activity is initiated by infection with a lambda phage derivative carrying the T7 RNA polymerase gene. The VH proteins were extracted from the bacterial pellet in 8 M urea and purified by chromatography in 8 M urea. Recombinants with the homologous light (L) chains were prepared to yield VHL molecules. These were used to measure intrinsic affinity for Dns-lysine by resonance energy transfer. The association constants were 7 x 10(6) M-1 and 7 x 10(9) M-1 for the low- and high-affinity systems, respectively. These values are not significantly different from those observed with monoclonal antibodies secreted from the corresponding cell lines. This system lends itself to the quantitative evaluation of the binding properties of the VH protein itself as well as the modulation of affinity by site-directed mutagenesis.
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PMID:Bacterial expression of immunoglobulin VH proteins. 210 93

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