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)

T7 RNA polymerase has been purified to homogeneity from an overproducing clone of Escherichia coli containing pAR1219. Preparations have a zinc content as low as 0.01 mol/mol of enzyme and a high specific activity, 300 000-500 000 units/mg. There are no intrinsic zinc sites. Furthermore, extrinsic Zn2+ does not function as an activator. Supplementation of the assay mix with up to 5 mM ethylenediaminetetraacetic acid has little effect on activity while added Zn2+ is strongly inhibitory at concentrations above 10 microM. This monomeric RNA polymerase is not a zinc metalloenzyme, unlike its multimeric bacterial counterparts. Titration of the urea-denatured protein with 5,5'-dithiobis(2-nitrobenzoic acid) reveals that all 12 Cys residues are present in the free sulfhydryl form, 5 of which are readily accessible to reagent in the native enzyme. More preferential labeling of the sulfhydryls can be achieved with low concentrations of [14C]iodoacetamide, where inactivation of the enzyme proceeds with incorporation of approximately 1.2 mol of [14C]iodoacetamide/mol of polymerase. Amidomethylation primarily occurs at Cys-347, with lesser reaction at Cys-723 and Cys-839. Cys-347 and Cys-723 are in segments of the primary sequence containing numerous basic residues. These same segments have previously been implicated in promoter binding, suggesting that both residues are located within or near the active site region.
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PMID:Transcription by T7 RNA polymerase is not zinc-dependent and is abolished on amidomethylation of cysteine-347. 308 55

The gene rpoB (rifD 18), which encodes rifampicin-resistant beta subunit of Escherichia coli RNA polymerase, has been placed on an overexpression plasmid under the control of bacteriophage T7 promoter. Induction of the T7 RNA polymerase gene in the host cells resulted in extensive overproduction of the beta polypeptide. Most of the overproduced material was recovered from cell lysates in insoluble form and was solubilized by extraction with 6 M urea. Purified overproduced beta subunit was added, in molar excess, to urea-denatured rifampicin-sensitive RNA polymerase. Upon removal of urea by dialysis, the reconstituted enzyme became rifampicin-resistant, indicating that overproduced beta subunit can be efficiently assembled into functional holoenzyme.
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PMID:Overexpression and purification of a biologically active rifampicin-resistant beta subunit of Escherichia coli RNA polymerase. 331 82

We have isolated ribosomal RNA gene (rDNA) chromatin from Physarum polycephalum using a nucleolar isolation procedure that minimizes protein loss from chromatin and, subsequently, either agarose gel electrophoresis or metrizamide gradient centrifugation to purify this chromatin fraction (Amero, S. A., Ogle, R. C., Keating, J. L., Montoya, V. L., Murdoch, W. L., and Grainger, R. M. (1988) J. Biol. Chem. 263, 10725-10733). Metrizamide-purified rDNA chromatin obtained from nucleoli isolated according to the new procedure has a core histone/DNA ratio of 0.77:1. The major core histone classes comigrate electrophoretically with their nuclear counterparts on Triton-acid-urea/sodium dodecyl sulfate two-dimensional gels, although they may not possess the extent of secondary modification evident with the nuclear histones. This purified rDNA chromatin also possesses RNA polymerase I activity, and many other nonhistone proteins, including two very abundant proteins (26 and 38 kDa) that may be either ribonucleoproteins or nucleolar matrix proteins. Micrococcal nuclease digestion of the metrizamide-purified rDNA chromatin produces particles containing 145-base pair DNA fragments identical in length to those in total chromatin and which contain both transcribed and nontranscribed rDNA sequences. Some smaller fragments (30, 70, and 110 base pairs) are also seen, but their sequence content is not known. These particles sediment uniformly at 11 S in sucrose gradients containing 15 mM NaCl, and at 4-11 S in gradients containing 0.35 M NaCl. Particles enriched in gene or nontranscribed spacer sequences are not resolved in these sucrose gradients or in metrizamide gradients. Our findings suggest that the rDNA chromatin fraction we have identified contains transcriptionally active genes and that an organized, particle-containing structure exists in active rDNA chromatin.
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PMID:The characterization of ribosomal RNA gene chromatin from Physarum polycephalum. 339 39

Purification of RNA polymerase II from chicken myeloblastosis (leukemia) cells to homogeneity and subsequent structural analysis of the purified enzyme revealed that the enzyme contained seven polypeptides with molecular masses ranging from 27 KDa to 220 KDa. Inclusion of protease inhibitors in the buffer system during purification significantly increased the molar ratio of the largest (220 KDa) polypeptide to the second largest (180 KDa) polypeptide. However, proteolytic conversion of the 220 KDa to 180 KDa polypeptide did not inhibit the DNA binding activity of the enzyme. The enzyme, after dissociation into subunits in a SDS-polyacrylamide gel containing urea was blotted onto a nitrocellulose filter. The filter was incubated with 32P-labeled calf thymus DNA and both the 220 KDa and 180 KDa polypeptides of the enzyme bind DNA, suggesting that the DNA-binding site of the enzyme resides on the 180 KDa polypeptide of the largest subunit.
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PMID:The 180 KDa polypeptide contains the DNA-binding domain of RNA polymerase II. 359 59

The Escherichia coli DNA-dependent RNA polymerase (RPase) holoenzyme (alpha 2 beta beta' sigma) possesses 2 mol equiv of Zn: beta and beta' subunits each contain one Zn ion. An in vitro metal-substitution method developed earlier (method I) was used to remove the two intrinsic Zn ions and then to reconstitute other metal ions into the beta subunit of RPase. One Cd or Hg ion was successfully reconstituted into half-active enzymes (rec-Cd1- or rec-Hg1-RPase), while Mn or Ni ion was not incorporated. A new, simplified in vitro metal-substitution method (method II), which omitted the low-pH treatment and subsequent urea dialysis in method I, was devised in this study. Consequently, Zn or Cd could be incorporated into both the beta and beta' subunits, resulting in rec-Zn2- or rec-Cd2-RPase, respectively. However, only one Hg was incorporated, probably due to steric hindrance by the large size of the Hg ion, while Mn, Ni, or Cr was not bound by the reconstituted enzyme, which instead incorporated only one Zn. Analysis of the metal content of various reconstituted RPases indicated that without low-pH treatment Zn bound to both the beta and beta' subunits when Zn concentrations were higher than 2 X 10(-6)M, but it bound only to the beta' subunit at lower concentrations. Moreover, low-pH treatment destroys the metal binding site in the beta' subunit. The metal sites on the beta and beta' subunits did not have significant affinity for the transition metals such as Mn, Ni, and Cr.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Preparation and characterization of various Escherichia coli RNA polymerases containing one or two intrinsic metal ions. 390 99

The activity of the sigma subunit of Bacillus subtilis RNA polymerase decreases markedly during the first hours of sporulation [T.G. Linn et al. (1973) Proc. Nat. Acad. Sci. USA 70, 1865-1869]. We have prepared antibody against RNA polymerase holoenzyme to determine the fate of sigma polypeptide during spore formation. This antiserum specifically and independently precipitates sigma and core polymerase from crude extracts of B. subtilis as judged by both sodium dodecyl sulfate and urea gel electrophoresis of the precipitates. We report that crude extracts of sporulating cells lacking sigma activity contain as much sigma polypeptide as extracts of vegetative cells. However, sigma polypeptide in extracts from sporulating cells is apparently only weakly associated with RNA polymerase, as indicated by the failure of sigma to co-purify efficiently with core enzyme during phase partitioning. The loss of sigma activity and the weak binding of sigma to core enzyme occurs normally in a mutant blocked at an intermediate stage of sporulation (SpoII-4Z) and in wild-type bacteria sporulating in 121B medium, Difco sporulation medium, or Sterlini-Mandelstam resuspension medium. In contrast, sigma in two mutants (SpoOa-5NA and SpoOb-6Z) blocked at an early stage of spore formation remains active and tightly associated with RNA polymerase during stationary phase.
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PMID:An immunological assay for the sigma subunit of RNA polymerase in extracts of vegetative and sporulating Bacillus subtilis. 421 98

1. The perturbing effect of glycerol on the direct spectrum of Escherichia coli DNA-dependent RNA polymerase has been studied. 2. By comparison with model compounds and with the unfolded polymerase in 3.8m-urea it was possible to determine the ratio of tyrosine and tryptophan residues present. On reduction of the urea-treated enzyme with 2-mercaptoethanol, no further change in the difference spectrum occurred. 3. The amino acid composition of the enzyme is given. 4. In the intact protein approx. 30% of the tryptophan and 54% of the tyrosine residues were exposed. In conjunction with the extinction value and molecular weight this corresponded to 7 tryptophan residues and 57 tyrosine residues on the surface and 16 tryptophan residues and 48 tyrosine residues ;buried'. 5. The optical rotatory dispersion of the enzyme was unaffected by 20% glycerol. 6. The helix content calculated from Moffit plots over 560-300nm was 13%, and from the 233nm trough 13%.
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PMID:Location of aromatic amino acids and belix content in Escherichia coli ribonucleic acid polymerase. 494 33

The 6 S leader RNA transcript from the Escherichia coli threonine operon controlling region was synthesized in vitro using purified RNA polymerase and restriction fragment DNA templates. The terminated leader transcript was analyzed by RNase T1 digestion followed by electrophoresis on 20% polyacrylamide, 8 M urea gels. Oligonucleotides of 7, 8, 13, 15, and 35 bases in length were detected and correlated with the known DNA sequence. The kinetics of RNase T1 digestion indicated that the RNA forms extensive secondary structure, especially at the 3'-terminus of the transcript. The sites of transcription initiation were determined by labeling the 5'-end of the transcript with [gamma-32P]ATP or -GTP followed by direct RNA sequencing. The DNA sequence preceding the initiation site shows homology with the equivalent regions of other bacterial and bacteriophage promoters. The transcription termination sites were determined by mapping of the RNase T1 oligonucleotides arising from the 3'-terminus of the transcript. Comparison of the mobilities of the 3'-oligonucleotides with the mobilities of standards on 20% polyacrylamide, 8 M urea gels indicated that the RNA contains a heterogeneous 3'-terminus. The two predominant oligonucleotides were CU7 and CU8. The 3'-terminus of the transcript also contains a region of dyad symmetry immediately preceding a stretch of uridine residues, characteristic of other rho-independent transcripts. In addition, kinetic studies indicated that RNA polymerase pauses approximately 50 base pairs upstream from the site of termination. The pause site appears to be immediately distal to another region of dyad symmetry.
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PMID:Initiation, pausing, and termination of transcription in the threonine operon regulatory region of Escherichia coli. 627 52

We have shown by T(1) oligonucleotide fingerprinting that the genome of mouse hepatitis virus strain A59 and its intracellular RNA 1 have identical fingerprints and that RNA 1 and the subgenomic RNAs 3, 6, and 7 contain common sequences. To localize the homologous region between the RNAs, we compared fingerprints of the 3' terminus of the genome with those of RNA 7. The genome was partially degraded with alkali, and polyadenylate-containing fragments were purified by oligodeoxythymidylate-cellulose chromatography. The fragments were size fractionated by agarose-urea gel electrophoresis, and two pools, x and z, containing 3'-derived fragments of the genome with apparent molecular weights of 0.1 x 10(6) to 0.14 x 10(6) and 0.6 x 10(6) to 0.8 x 10(6), respectively, were further analyzed by RNase T(1) oligonucleotide fingerprinting. Comparison of the fingerprints of RNAs 6 and 7 with those of pools x and z showed that these subgenomic RNAs extend inwards from the 3' terminus of the genome. The RNA fragments present in pool z were on average slightly larger than RNA 7 as confirmed by the presence in pool z of T(1) oligonucleotide spots specific for RNA 6 but not present in RNA 7. However, two large oligonucleotide spots derived from RNA 7, which were also present in RNAs 1, 3, and 6 and in the virion RNA, were not found in the T(1) oligonucleotide map of pool z. A possible explanation is that the two spots were derived from a leader sequence. The results of UV transcription mapping experiments (L. Jacobs, W. J. M. Spaan, M. C. Horzinek, and B. A. M. van der Zeijst, J. Virol. 39:401-406, 1981) excluded the possibility that such a leader sequence arises by splicing from a larger precursor molecule, but either a virus-specific RNA primer molecule for the synthesis of mRNAs or an RNA polymerase jumping mechanism could explain the presence of a leader sequence.
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PMID:Sequence relationships between the genome and the intracellular RNA species 1, 3, 6, and 7 of mouse hepatitis virus strain A59. 628 66

Biochemical mapping experiments of the simian rotavirus SA11 genome were performed to determine which double-stranded RNA segment coded for each of the viral polypeptides. Viral RNA transcripts were synthesized in vitro by using the endogenous viral RNA polymerase and fractionated by electrophoresis in acid-urea agarose gels. The fractionated transcripts were translated in two cell-free systems: micrococcal nuclease-treated reticulocyte lysates and wheat germ extracts. The polypeptide products were identified by polyacrylamide gel electrophoresis and partial peptide analysis and compared with polypeptides synthesized in infected cells or found in purified virus. The RNA segment that coded for each transcript was determined by hybridization of the fractionated transcripts to the double-stranded RNA genome and analysis of the hybrids by electrophoresis in polyacrylamide gels. Primary gene products were assigned for 10 of the rotavirus transcripts and 10 of the double-stranded RNA segments. The coding assignments are as follows: the inner-capsid polypeptides, VP1, VP2, and VP6, were assigned to segments 1, 2, and 6, respectively; the major outer-capsid polypeptides, VP3 and VP7, were assigned to segments 4 and 9, respectively; segments 5, 7, and 8 coded for nonstructural polypeptides with molecular weights of 53,000, 34,000, and 35,000, respectively; segment 10 coded for the 20,000-molecular-weight precursor to the 29,000-molecular-weight glycosylated nonstructural polypeptide; and segment 11 coded for a 26,000-molecular-weight polypeptide that may be the precursor to the minor outer-capsid polypeptide VP9. Several methods were used to determine the product of gene segment 3, and the problems associated with the identification of this gene product are discussed.
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PMID:Biochemical mapping of the simian rotavirus SA11 genome. 630 11

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