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)

A previous study (Hale, P., Woodward, R. W., and Lebowitz, J. (1980) Nature 284, 640-644) showed that Escherichia coli RNA polymerase promoters on superhelical SV40 DNA are highly selective targets for chemical modification by the water-soluble carbodiimide, N-cyclohexyl-N'-beta-(4-methylmorpholinium)ethyl carbodiimide (CMC). To extend the inactivation analysis of supercoiled DNAs, we determined the number and location of RNA polymerase binding sites on the supercoiled and linear forms of ColE1 DNA. We also determined the site distribution of [3H] CMC on the superhelical form. This information, coupled with per cent inhibition of transcription versus CMC-bound curves, allowed a test of the specificity of the CMC inactivation by the Poisson equation. Curves were obtained for supercoiled SV40 DNA modified at 0 and 100 mM NaCl (2 mM NaPi, pH 7.0) and for supercoiled ColE1 DNA modified at 0, 100, and 320 mM NaCl. For supercoiled SV40 DNA, these data, coupled to our knowledge of the number of RNA polymerase binding sites from the study cited above, revealed an excellent fit to a one-hit inactivation by the Poisson equation for DNA modified at 100 mM NaCl. For ColE1 DNA, we obtained an excellent fit to a Poisson distribution when supercoiled DNA was modified at 320 mM NaCl. The Poisson distribution can be applied to [3H] CMC restriction fragment data with equivalent results. These results suggest that promoter sites can be forced into different structural conformations with variable degrees of unpairing.
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PMID:Carbodiimide inactivation of Escherichia coli RNA polymerase promoters on supercoiled simian virus 40 and ColE1 DNAs occurs by a one-hit process at salt concentrations in the physiological range. 630 57

We have devised a method of data collection and computer analysis which allows utilization of the resolving power of two-dimensional gel electrophoresis of proteins, in conjunction with the versatility of using two different radionuclides simultaneously. Cultures of Escherichia coli growing with exponential growth rate constants (mu) of 0.32 and 1.43 were labeled with [3H]leucine and [14C]leucine, respectively; these samples were mixed, and cell protein was separated on a two-dimensional gel. Spacial and quantitative data for both radionuclides were recorded on color negative film by radiographic exposure. Data for 14C alone were then collected photographically from the red-light-sensitive layer of the film using a red filter, while data for 3H and spillover of 14C were collected photographically from the blue-light-sensitive layer using a blue filter. These two data sets were analyzed by CINT, a computer program for analysis of two-dimensional gels, and quantitative data for 3H were calculated after determination of spillover of 14C in a manner analogous to quantification of 3H and 14C by liquid scintillation counting. Quantitative data from over 1000 protein spots representing from 0.002% to 10% of the total 3H or 14C, respectively, are available in a matter of hours. We have used this method to analyze the effect of growth rate and medium composition on the relative levels of individual proteins in a pathogenic strain of E. coli which contains group 111 O-antigen. As expected, the relative levels of aminoacyl-tRNA synthetases, protein chain elongation factors, ribosomal proteins, and the alpha-subunit of RNA polymerase are all increased with increased growth rate; the magnitude of these changes agreed with previous data derived using other strains of E. coli. Alterations in the levels of other proteins identified on the two-dimensional gels could be interpreted in terms of changes in medium composition. When compared to manual data collection by excising radiolabeled proteins and quantifying 3H and 14C in a liquid scintillation counter following combustion to H2O and CO2, respectively, this new method of data collection and computer analysis increases the resolution of data collection and decreases the time involved from days to hours.
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PMID:Quantitative double-label radiography of two-dimensional protein gels using color negative film and computer analysis. 634 Oct 53

Nuclear magnetic resonance studies were performed with Escherichia coli RNA polymerase (RPase) in which one of the two intrinsic Zn ions was substituted with Co(II) ion (Co-Zn RPase). The Co ion was located in the beta subunit which contains the initiation site of the enzyme. The paramagnetic effect of Co-Zn RPase on the relaxation rates of rapidly exchanging water protons indicated that the Co ion was accessible to solvent. There were approximately two water molecules in the inner coordination sphere of the Co ion, one of which could be replaced by the substrate adenosine 5'-triphosphate (ATP) or the initiator adenylyl-(3' leads to 5')-adenine (ApA) but to a much less extent by uridine 5'-triphosphate. The effects of ATP and ApA did not require the presence of DNA or Mg (II) ions, and their Kd values were estimated to be 0.15 and 0.075 mM, respectively. These results showed that the Co ion was at the initiation site. From the measurements of the paramagnetic effects of Co-Zn RPase on the relaxation rates of 1H and 31P nuclei of ATP, the distances from the intrinsic Co ion to H2, H8, and H1' were determined to be 4.1 +/- 0.6, 3.6 +/- 0.5, and 6.8 +/- 0.8 A, respectively, and those to the alpha-, beta-, and gamma-phosphorus atoms were 10.5 +/- 0.7, 15.1 +/- 1.1, and 14.1 +/- 0.8 A, respectively. These spatial relationships clearly indicate that the Co ion is directly coordinated to the base moiety of ATP bound at the initiation site. Thus, the intrinsic metal in the beta subunit of RNA polymerase may play a regulatory role in the recognition of the initiating nucleotide and may orient the nucleotide in a stereospecific position for the initiation.
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PMID:Direct coordination of nucleotide with the intrinsic metal in Escherichia coli RNA polymerase. A nuclear magnetic resonance study with cobalt-substituted enzyme. 675 23

Chloroacetaldehyde-modified poly(rC) or poly(dC) was prepared containing either 8-36% 3,N4-ethenocytidine (epsilon C) or 8-36% of a mixture of epsilon C and the hydrated epsilon C (epsilon C . H2O), with the hydrate greatly predominating (greater than 90%). These ribo- and deoxyribonucleotide templates were transcribed with DNA-dependent RNA polymerases from Escherichia coli and calf thymus, in the presence of either Mn2+ or Mg2+ and all four ribonucleoside triphosphates. All the polymers tested were transcribed with either cation present. In an earlier report from this laboratory [Spengler, S., & Singer, B. (1981) Nucleic Acids Res. 9. 365], transcriptional ambiguities resulting from epsilon C residues in enzymatically synthesized poly(rC, epsilon rC) were studied with E. coli DNA-dependent RNA polymerase in the presence of Mn2+. The misincorporations there reported were confirmed when poly(rC, epsilon rC) and poly(dC, epsilon dC), prepared by reaction of poly(rC) and poly(dC) with CAA, were transcribed in the presence of either Mn2+ or Mg2+. We now report that the presence of hydrated epsilon C in polymers also leads to misincorporations but with reproducible differences from those found with epsilon C alone. Nearest-neighbor analysis of the transcription products showed that the hydrate caused misincorporation of A greater than U much greater than C while epsilon C caused misincorporation of U greater than A much greater than C. The extent of misincorporation in transcription was less with Mg2+ than with Mn2+, but the pattern of ambiguity was the same with both cations and with both ribo- and deoxyribocytidylate polymers. Calf thymus DNA-dependent RNA polymerase IIB was also used to transcribe deoxyribocytidine polymers with Mn2+ as the cation. epsilon C and epsilon C . H2O both caused a high level of misincorporation of U , A, and C, but the preferred misincorporations differed slightly from those found with E. coli DNA-dependent RNA polymerase. For both prokaryotic and eukaryotic enzymes, the type of misincorporation resulting from the loss of hydrogen bonding by modification of the N-3 of C not only differed between epsilon C and the hydrated intermediate but also both differed from the transcriptional errors resulting from the presence of 3-methylcytidine in poly(dC) or poly(rC). We conclude that the errors made by these polymerases during transcription do not result primarily from the conditions used (cation, ribo- or deoxyribotemplate) but must be at least in part attributed to the enzyme recognizing some facet of the modified base other than the lack of normal hydrogen bonding.
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PMID:Chloroacetaldehyde-treated ribo- and deoxyribopolynucleotides. 2. Errors in transcription by different polymerases resulting from ethenocytosine and its hydrated intermediate. 675 74

The crystal and molecular structure of the sodium salt of rifamycin SV (clinically known as rifacin) as the monohydrate ethanol solvate has been determined to study the conformation of the ansa chain in unsubstituted rifamycins and also to clarify the metal complexation with rifamycins. The crystals belong to the space group P2(1)2(1)2(1) with cell dimensions (estimated standard deviations in parentheses) of a = 12.061 (2), b = 13.936 (2), and c = 24.731 (4) A. The structure was solved by direct methods and refined to an R factor of 0.069. The conformation of the ansa chain differs from that of other active rifamycins, e.g., rifampcin and rifamycin B at the joining point of the ansa chain to the naphthohydroquinone chromophore. The conformation of the middle part of the ansa chain, which is essential for activity against DNA-dependent RNA polymerase, remains the same. The sodium ion is penta-coordinated and has a trigonal bipyramidal geometry. The intermolecular hydrogen bonding involves O(9), O(10), O(5), and O(6) through water and ethanol molecules. A two-step mode of action of rifamycins has been postulated, and the conformations of antibiotics suitable for penetration of the membrane barrier and that for antibiotic-enzyme complex formation have been suggested.
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PMID:Correlation of structure and activity in ansamycins. Molecular structure of sodium rifamycin SV. 686 97

Chloroform is a drinking water contaminant that has been demonstrated to be carcinogenic to mice and rats resulting in an increased incidence of liver and kidney tumors, respectively. The mechanism of chloroform carcinogenicity might be by tumor initiation and/or promotion. Since induction of ornithine decarboxylase (ODC) activity has been proposed as a molecular marker for tumor promoters, we have investigated the effect of chloroform on ODC activity in rats. Chloroform induced a dose-dependent increase of hepatic ODC with an apparent threshold at 100 mg/kg body weight. Female rats were two to four times more susceptible to to chloroform. Upon daily dosing of chloroform for 7 days the liver became less susceptible, with the last dose of chloroform resulting in only 10% of the activity observed after a single dose. Nuclear RNA polymerase I activity was also induced by chloroform. Chloroform, rather than increasing the activity of renal ODC, resulted in a 35% reduction. The induction by chloroform of hepatic ODC activity might be associated with regenerative hyperplasia while the renal carcinogenicity of chloroform could not be demonstrated to be associated with ODC induction.
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PMID:Chloroform induction of ornithine decarboxylase activity in rats. 715 57

Administration of caffeine or theophylline, 0.2 mg/ml (an average of 20 mg/kg/d) of drinking water, to male CD rats, 2 months of age, over a 15 week period resulted in the elevation of liver RNA polymerase I activity by 2-3 fold as assayed in isolated nuclei. This increase in activity was already apparent by the fourth week of exposure. The changes in RNA polymerase I activity were accompanied by moderate liver hypertrophy.
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PMID:Subchronic administration of caffeine and theophylline in drinking water: effects on rat liver RNA polymerase I activity. 731 87

A rapid and simple method was developed to detect enteroviruses and hepatitis A virus (HAV) in sewage and ocean water. Sewage samples were concentrated by Centriprep-100 and Centricon-100 at 1,000 x g. Samples collected from estuary and near-shore surf zone ocean water in Southern California were concentrated by vortex flow filtration and microconcentration. Reverse transcriptase-polymerase chain reaction (RT-PCR), with enterovirus primers or HAV capsid-specific primers, was used to detect enteroviruses or HAV in all concentrated samples. A nonradioactive internal probe was used to confirm the amplified products. Results of seeding experiments indicated that at 4 degrees C, HAV was more persistent than poliovirus in seawater and both HAV and poliovirus persisted longer at 4 degrees C than at 25 degrees C. RT-PCR was at least 500-fold more sensitive than cell culture. Results were obtained within 5 h by RT-PCR, in contrast with the 5 days to 3 weeks required for cell culture.
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PMID:Simple method of concentrating enteroviruses and hepatitis A virus from sewage and ocean water for rapid detection by reverse transcriptase-polymerase chain reaction. 750 33

Fifty-seven Thai herbs and spices were examined for their retroviral reverse transcriptase inhibitory activity. All herbs and spices were extracted with hot-water and methanol. Reverse transcriptase inhibitory activity of the extracts was determined by using Moloney Murine Leukemia Virus reverse transcriptase (M-MuLV-RT) reacted with 3H-dTTP and radioactivity measured with a scintillation counter. Eighty-one per cent (46/57) of hot-water extracts and 54% (31/57) of methanol extracts showed inhibitory activities. At a concentration of 125 micrograms/ml, 13% (6/46) of hot-water extracts, namely Eugenia caryophyllus Bullock et Harrison, Phyllanthus urinaria Linn., Terminalia belerica Roxb., Nelumbo nucifera Gaertn., Psidium guajava Linn. and Lawsonia inermis Linn., had a relative inhibitory ratio (IR) over 50%. They showed ratios of 100%, 91%, 75%, 74%, 61% and 60%, respectively. For methanol extracts, only 10% (3/31) had IR values over 50%. They were T. belerica, E. caryophyllus and N. nucifera which exhibited IR values of 83%, 54% and 54%, respectively.
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PMID:Retroviral reverse transcriptase inhibitory activity in Thai herbs and spices: screening with Moloney murine leukemia viral enzyme. 752 65

A pathogenicity locus in Xanthomonas campestris pv. campestris has been shown to comprise two genes which mediate biosynthesis of the bacterial lipopolysaccharide (LPS) but not extracellular polysaccharide. Mutants with Tn5 insertions in either gene showed alterations in the electrophoretic patterns of both water-soluble and phenol-soluble LPS forms, which suggested defects in the biosynthesis of the core oligosaccharide component. On gel chromatography, core oligosaccharides of the mutants were of apparently lower molecular weight than those from the wild type. Furthermore, the content of mannose and glucose, sugars characteristic of the core oligosaccharide, were significantly lower in the water-soluble LPS of the mutants. Because of their role in LPS core biosynthesis, the two genes were called rfaX and rfaY. rfaX mutants show altered behavior in a range of host and non-host plants such that the number of recoverable bacteria drop within the first 24 h after inoculation. In contrast, the behavior of rfaY mutants only differed from the wild type in Datura, a non-host plant in which the growth of the wild type is severely attenuated. The predicted protein RfaY showed significant sequence homology to a sub-family of RNA polymerase sigma factors which are involved in extracytoplasmic functions.
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PMID:A locus determining pathogenicity of Xanthomonas campestris is involved in lipopolysaccharide biosynthesis. 757 21

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