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 method for the purification of highly pure and active Escherichia coli RNA polymerase holoenzyme is described. This method is simple, reproducible, and can be performed at room temperature. The procedure involves the high-performance liquid chromatography of a partially purified RNA polymerase sample on a Mono Q ion-exchange column. Under the conditions used, RNA polymerase holoenzyme is well separated from the core RNA polymerase and other impurities. The purified RNA polymerase contains virtually no impurities as judged by SDS-polyacrylamide gel electrophoresis. The purified RNA polymerase holoenzyme contains the sigma 70 subunit in stoichiometric amounts and is at least 90% active.
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PMID:Use of Mono Q high-resolution ion-exchange chromatography to obtain highly pure and active Escherichia coli RNA polymerase. 226 43

Eucaryotic transcription initiation by RNA polymerase II involves protein:DNA interactions during the formation of a transcription complex. In addition to RNA polymerase II there are at least five other general transcription factors necessary for initiation with the adenovirus major late promoter. One of these, TFIIA, is involved in the earliest events during transcription complex assembly. We have purified TFIIA from wheat germ and characterized it in an in vitro transcription system. Wheat TFIIA is a single polypeptide of Mr approximately 35 kd which functionally replaces human (HeLa) TFIIA to form a wheat/HeLa transcription system. [This polypeptide can be eluted from a SDS-polyacrylamide gel, refolded to a native conformation, and will function as wheat TFIIA in the heterologous system.] The heterologous system requires a lower optimal incubation temperature than the HeLa system. Biochemical characterization, using the adenovirus major late promoter, indicates that transcription reaction parameters for both wheat and HeLa TFIIA are similar but the kinetics of transcription for both TFIIAs are somewhat dissimilar. A plant viral promoter, the cauliflower mosaic virus 35S promoter, accurately and efficiently directs in vitro transcription in both the wheat/HeLa and HeLa systems with identical transcription kinetics. We conclude that TFIIA function has been conserved during evolution.
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PMID:Transcription factor IIA of wheat and human function similarly with plant and animal viral promoters. 236 10

The DNA-directed RNA polymerase from the extremely thermophilic eubacterium Thermus thermophilus HB8 was purified employing a new and rapid method. The subunit pattern of the enzyme, analyzed by SDS gel electrophoresis, was interpreted as: 140 kDa and 170 kDa for beta and beta', 40 kDa for alpha and 92 kDa for sigma. The RNA polymerase is active at elevated temperatures (65 degrees C). Kinetic data provide evidence for the existence of two NTP binding sites with very strong cooperativity. The promoter site specificity of the isolated enzyme has been proven by in vitro transcription employing two T. thermophilus templates whose in vivo starts of transcription were characterized by nuclease S1 mapping.
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PMID:Isolation and physical properties of the DNA-directed RNA polymerase from Thermus thermophilus HB8. 238 94

A general transcription factor, FC, essential for specific initiation of in vitro transcription by mammalian RNA polymerase II was identified and a procedure developed to purify it to near homogeneity from HeLa cell nuclei. Purified FC is composed of two polypeptides of apparent molecular masses 80 kDa and 30 kDa, on SDS-PAGE, and has a native size of 280 kDa estimated by gel filtration column. Both polypeptides were shown to be essential for reconstituting in vitro transcription activity. Biochemical analysis showed that the 80 kDa and 30 kDa components were present in a 1:1 molar ratio. FC was also demonstrated to interact directly or indirectly with purified RNA polymerase II. Similarities between FC and transcription factors reported by others from human, rat or Drosophila cells are discussed.
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PMID:A heteromeric transcription factor required for mammalian RNA polymerase II. 239 45

B lymphocytes from a patient with systemic lupus erythematosus (SLE) and several circulating autoantibodies (including antinucleolar antibodies) were immortalized by fusion with a hypoxanthine/guanine phosphoribosyl transferase (HGPRT)-deficient human B cell line. Multiple human monoclonal antibodies (mAb) were obtained which, in solid-phase enzyme immunoassay, were reactive with DNA. One mAb was of special interest because it reacted strongly with both single-stranded DNA and an extractable nuclear antigen found in rabbit thymus extract (RTE). In an immunofluorescent assay using fixed human cells, the latter mAb also bound predominantly to cell nucleoli. A combination of enzyme digestion and metabolic inhibitor studies of the target cells in this immunofluorescent assay suggested that the antigen(s) bound by the mAb was an RNA-associated protein or a ribonucleoprotein that is distinct from intact RNA polymerase I and not associated with the transcriptional units of the nucleolus. In other experiments, using fractions of RTE isolated by ion-exchange chromatography, the antigens bound by the mAb were shown to be highly negatively charged molecules. Immunoprecipitation and SDS-PAGE analyses of labeled cell extracts bound by the mAb revealed a doublet of 17 and 18 kD. Since the original patient's serum autoantibodies also bound to both an RNase-sensitive, acidic, extractable nuclear antigen and to nucleoli, and immunoprecipitated proteins of similar molecular masses in SDS-PAGE, it appears that the described mAb is a product of an immortalized autoantibody-producing B cell clone from the SLE patient's peripheral blood. This mAb probably defines a novel RNA-associated autoantigen residing predominantly in the nucleolus or, less likely, a variant of either RNA polymerase I or the ribosomal autoantigens (P proteins).
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PMID:Description and partial characterization of a nucleolar RNA-associated autoantigen defined by a human monoclonal antibody. 243 34

Murine monoclonal antibodies reactive with the major sigma subunit (sigma-70) of Escherichia coli RNA polymerase were obtained by standard hybridoma techniques. Western blot analyses established that seven antibodies had unique specificities after various chemical and enzymatic methods were used to fragment sigma. Peptides were purified by HPLC using size-exclusion, reverse-phase, or ion-exchange chromatography. The epitopes for six of these antibodies have been localized to specific peptides. These peptides were further characterized by amino acid composition and N-terminal sequencing. Sigma, which has a molecular weight of 70.2K, runs as 83K on SDS gels in this study. This anomalous behavior has been localized to the very acidic N-terminal half of the molecule. One antibody is unable to bind to native sigma. Two others do not bind well to sigma when it is contained in holoenzyme, indicating that their epitopes are in regions of sigma which are inaccessible in the holoenzyme complex. All three of these antibodies fail to inhibit in vitro transcription by holoenzyme. The other four antibodies all can inhibit in vitro transcription.
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PMID:Structure and function of the sigma-70 subunit of Escherichia coli RNA polymerase. Monoclonal antibodies: localization of epitopes by peptide mapping and effects on transcription. 246 Jan 32

Pro-opiomelanocortin (POMC) was expressed in CV-1 (green monkey kidney) cells using a vaccinia virus transient expression system [(1986) Proc. Natl. Acad. Sci. USA 83, 8122]. The system involved infection of cells with a recombinant vaccinia virus carrying the T7 RNA polymerase gene and transfection with a plasmid containing the mouse POMC sequence flanked by the T7 RNA polymerase promoter at its 5'-end and the T7 RNA polymerase terminator at its 3'-end. Assay of the medium from transfected cells showed that 1-2 micrograms of immunoreactive ACTH was produced/10(6) cells. Analysis of the same medium by SDS-PAGE/Western blots revealed a band of 30-36 kDa, which was immunostained with both ACTH and beta-endorphin antisera. Labeling the transfected cells with [3H]Arg, followed by immunoprecipitation and SDS-PAGE showed the synthesis of a major peak of POMC, 33 kDa. Purified [3H]POMC expressed by CV-1 cells was cleaved in vitro by bovine intermediate lobe secretory vesicle pro-opiomelanocortin-converting enzyme to ACTH intermediates (19-25 kDa), beta-lipotropin and beta-endorphin. Thus, this work has demonstrated a technique for expressing microgram quantities of prohormones in mammalian cells, suitable for use as substrates for prohormone-converting enzymes in vitro.
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PMID:Production of pro-opiomelanocortin (POMC) by a vaccinia virus transient expression system and in vitro processing of the expressed prohormone by POMC-converting enzyme. 254 89

An engineered DNA fragment containing a DNA sequence encoding a wheat high molecular weight glutenin subunit was cloned into a bacterial expression vector that is based on bacteriophage T7 RNA polymerase. The resulting plasmid directed the synthesis of large amounts of the mature form of the wheat high molecular weight glutenin subunit in Escherichia coli. This protein comigrated in SDS/PAGE with a native high molecular weight glutenin subunit extracted from wheat endosperm and cross-reacted with antibodies raised against purified wheat high molecular weight glutenins. The wheat subunit synthesized in E. coli also exhibited pI and solubility characteristics identical to those of native wheat subunits. Moreover, the wheat glutenin subunit produced in E. coli cells self-assembled into oligomers linked by intermolecular disulfide bonds, a process that plays an important role in the assembly of native glutenins during gluten formation. The large amounts of a purified wheat subunit obtained from E. coli will enable investigators to analyze the three-dimensional structure of that protein and to identify protein sequences that affect the bread-making quality of wheat dough.
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PMID:Heterologous expression of a wheat high molecular weight glutenin gene in Escherichia coli. 268 24

Immediately after the initiation of transcription in eukaryotes, nascent RNA polymerase II transcripts are bound by nuclear proteins resulting in the formation of heterogeneous nuclear ribonucleoprotein (hnRNP) complexes. hnRNP complexes from HeLa cell nuclei contain greater than 20 major proteins in the molecular mass range of 34,000-120,000 D. Among these are the previously described A, B, and C groups of proteins (34,000-43,000 D) and several larger, and as yet uncharacterized, proteins. Here we describe the isolation and characterization of a novel hnRNP protein termed the L protein (64-68 kD by mobility in SDS-polyacrylamide gels). Although L is a bona fide component of hnRNP complexes, it also appears to be a different type of hnRNP protein from those previously characterized. A considerable amount of L is found outside hnRNP complexes, and monoclonal antibodies to the L protein also strongly stain unidentified discrete nonnucleolar structures, in addition to nucleoplasm, in HeLa cell nuclei. Interestingly, the same antibodies stain the majority of nonnucleolar nascent transcripts from the loops of lampbrush chromosomes in the newt, but the most intense staining is localized to the landmark giant loops. The L protein is the first protein of giant loops identified so far, and antibodies to it thus provide a useful tool with which to study these unique RNAs. In addition, isolation and sequencing of cDNA clones for the L protein from human cells predicts a glycine- and proline-rich protein of 60,187 D, which contains two 80 amino acid segments only distantly related to the RNP consensus sequence-type RNA-binding domain. The L protein, therefore, is a new type of hnRNP protein.
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PMID:A novel heterogeneous nuclear RNP protein with a unique distribution on nascent transcripts. 268 84

Xenopus transcription factor IIIA (TFIIIA) or TFIIIA mutants with internal deletions were expressed in E. coli utilizing a bacteriophage T7 RNA polymerase system. TFIIIA or deletion mutant TFIIIAs, isolated from E.coli cell extracts, were identified by SDS PAGE and immunoblotting with rabbit antiserum against native TFIIIA purified from Xenopus immature oocytes. Specific DNA binding of intact or internally deleted TFIIIA was compared by analyzing their abilities to protect the internal control gene (ICR) of the Xenopus 5S RNA gene from DNase I digestion. Intact protein, synthesized from a full-length TFIIIA cDNA, bound specifically to the entire ICR (+96 to +43) and promoted 5S RNA gene transcription in vitro. One TFIIIA deletion mutant, expressed from cDNA lacking the coding sequence for the putative fourth zinc finger (designated from the N-terminus, amino acids 103-132) protected the ICR from DNase I digestion from nucleotide positions +96 to +78. A second TFIIIA mutant resulting from fusion of putative zinc fingers 7 and 8 (deletion of amino acids 200-224) protected the 5S gene ICR from positions +96 to +63. The DNase I protection patterns of these mutant proteins are consistent with the formation of strong ICR contacts by those regions of the protein on the N-terminal side of the mutation but not by those regions on the C-terminal side of the mutation. The regions of the protein comprising the N-terminal 3 fingers and N-terminal six fingers appear to be in contact with approximately 18 and 33 bp of DNA respectively on the 3' side of the 5S gene ICR. These internal deletion mutants promoted 5S RNA synthesis in vitro and DNA renaturation.
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PMID:Internal deletion mutants of Xenopus transcription factor IIIA. 269 11

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