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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 TATA box binding protein (TBP) plays a central and essential role in transcription initiation. At TATA box-containing genes transcribed by RNA polymerase II, TBP binds to the promoter and initiates the assembly of a multiprotein preinitiation complex. Several studies have suggested that binding of TBP to the TATA box is an important regulatory step in transcription initiation in vitro. To determine whether TBP is a target of regulatory factors in vivo, we performed a genetic screen in yeast for TBP mutants defective in activated transcription. One class of TBP mutants identified in this screen comprises inositol auxotrophs that are also defective in using galactose as a carbon source. These phenotypes are due to promoter-specific defects in transcription initiation that are governed by the upstream activating sequence (UAS) and apparently not by the sequence of the TATA element. The finding that these TBP mutants are severely impaired in DNA binding in vitro suggests that transcription initiation at certain genes is regulated at the level of TATA box binding by TBP in vivo.
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PMID:TBP mutants defective in activated transcription in vivo. 772 24

We have developed a system for mutational analysis of Saccharomyces cerevisiae ribosomal RNA in vivo in which yeast cells can be made completely dependent on mutant rRNA and ribosomes by a simple switch in carbon source. The system is based on a yeast strain defective in RNA polymerase I (Pol I) transcription [Nogi et al. (1991) Proc. Natl. Acad. Sci. USA 88, 3962-3966]. This normally inviable strain was rescued by integration of multiple copies of the complete 37S pre-rRNA operon under control of the inducible, Pol II-transcribed GAL7 promoter into the rDNA repeat on chromosome XII. The resulting YJV100 strain can only grow on medium containing galactose as the carbon source. A second, episomal vector was constructed in which the rDNA unit was placed under control of the constitutive PGK1 promoter. YJV100 cells transformed with this vector are now also able to grow on glucose-based medium making the cells completely dependent on plasmid-encoded rRNA. We show that the Pol II-transcribed pre-rRNA is processed and assembled similarly to authentic Pol I-synthesised pre-rRNA, making this 'in vivo Pol II system' suitable for the detailed analysis of rRNA mutations, even highly deleterious ones, affecting ribosome biogenesis or function. A clear demonstration of this is our finding that an insertion into variable region V8 in 17S rRNA, previously judged to be neutral with respect to processing of 17S rRNA, its assembly into 40S subunits and the polysomal distribution of these subunits [Musters et al. (1989), Mol. Cell. Biol. 9, 551-559], is in fact a lethal mutation.
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PMID:Development and application of an in vivo system to study yeast ribosomal RNA biogenesis and function. 773 24

The genome of Lelystad virus (LV), a positive-strand RNA virus, is 15 kb in length and contains 8 open reading frames (ORFs) that encode putative viral proteins. ORFs 2 to 7 were cloned in plasmids downstream of the Sp6 RNA polymerase promoter, and the translation of transcripts generated in vitro yielded proteins that could be immunoprecipitated with porcine anti-LV serum. Synthetic polypeptides of 15 to 17 amino acids were selected from the amino acid sequences of ORFs 2 to 7 and antipeptide sera were raised in rabbits. Antisera that immunoprecipitated the in vitro translation products of ORFs 2 to 5 and 7 were obtained. Sera containing antibodies directed against peptides from ORFs 3 to 7 reacted positively with LV-infected alveolar lung macrophages in the immunoperoxidase monolayer assay. Using these antipeptide sera and porcine anti-LV serum, we identified three structural proteins and assigned their corresponding genes. Virions were found to contain a nucleocapsid protein of 15 kDa (N), an unglycosylated membrane protein of 18 kDa (M), and a glycosylated membrane protein of 25 kDa (E). The N protein is encoded by ORF7, the M protein is encoded by ORF6, and the E protein is encoded by ORF5. The E protein in virus particles contains one or two N-glycans that are resistant to endo-beta-N-acetyl-D-glucosaminidase H. This finding indicates that the high-mannose glycans are processed into complex glycans in the Golgi compartment. The protein composition of the LV virions further confirms that LV is evolutionarily related to equine arteritis virus, simian hemorrhagic fever virus, and lactate dehydrogenase-elevating virus.
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PMID:Characterization of proteins encoded by ORFs 2 to 7 of Lelystad virus. 783 70

The RNA polymerase II holoenzyme consists of RNA polymerase II, a subset of general transcription factors, and regulatory proteins known as SRB proteins. The genes encoding SRB proteins were isolated as suppressors of mutations in the RNA polymerase II carboxy-terminal domain (CTD). The CTD and SRB proteins have been implicated in the response to transcriptional regulators. We report here the isolation of two new SRB genes, SRB10 and SRB11, which encode kinase- and cyclin-like proteins, respectively. Genetic and biochemical evidence indicates that the SRB10 and SRB11 proteins form a kinase-cyclin pair in the holoenzyme. The SRB10/11 kinase is essential for a normal transcriptional response to galactose induction in vivo. Holoenzymes lacking SRB10/11 kinase function are strikingly deficient in CTD phosphorylation. Although defects in the kinase substantially affect transcription in vivo, purified holoenzymes lacking SRB10/11 kinase function do not show defects in defined in vitro transcription systems, suggesting that the factors necessary to elicit the regulatory role of the SRB10/11 kinase are missing in these systems. These results indicate that the SRB10/11 kinase is involved in CTD phosphorylation and suggest that this modification has a role in the response to transcriptional regulators in vivo.
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PMID:A kinase-cyclin pair in the RNA polymerase II holoenzyme. 787 79

El Tor biotype Vibrio cholerae strains express a cell-associated mannose-sensitive hemagglutinin (MSHA) which is a putative attachment factor. Several MSHA-negative mutants from V. cholerae strain JBK70 were previously generated by Tn5 mutagenesis [Finn et al., Infect. Immun. 55 (1987) 942-946]. The chromosomal DNA regions containing the Tn5 insertions were isolated from eight strains for further analysis. Nucleotide sequencing of the insertional junctions and corresponding clones containing the intact chromosomal region from the parental strain revealed the presence of several contiguous ORFs. Only two ORFs of this region had received insertions, and these showed remarkable homology to genes involved in the general secretory pathway found in several Gram- bacterial species. Proteins corresponding to the observed ORFs were visualized with the T7 promoter/RNA polymerase expression system. Marker exchange mutagenesis was used to insert kanamycin-resistance cassettes and TnphoA insertions into different locations of this region in the chromosome of wild-type V. cholerae strains. The phenotypes of these mutants showed that this DNA region is involved in MSHA production, but is not required for general extracellular protein secretion.
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PMID:Genetic characterization of mannose-sensitive hemagglutinin (MSHA)-negative mutants of Vibrio cholerae derived by Tn5 mutagenesis. 795 47

DNAase I footprinting has been used to study open complexes between Escherichia coli RNA polymerase and the galactose operon P1 promoter, both in the absence and the presence of CRP (the cyclic AMP receptor protein, a transcription activator). From the effects of deletion of the C-terminal part of the RNA polymerase alpha subunit, we deduce that alpha binds at the upstream end of both the binary RNA polymerase-galP1 and ternary RNA polymerase-CRP-galP1 complexes. Disruption of the alpha-upstream contact suppresses open complex formation at galP1 at lower temperatures. In ternary RNA polymerase-CRP-galP1 complexes, alpha appears to make direct contact with Activating Region 1 in CRP. DNAase I footprinting has been used to detect and quantify interactions between purified alpha and CRP bound at galP1.
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PMID:Interactions between the cyclic AMP receptor protein and the alpha subunit of RNA polymerase at the Escherichia coli galactose operon P1 promoter. 797 Dec 67

L-Fucose (6-deoxy-L-galactose) is used as sole carbon source by many microorganisms, and its transport into Escherichia coli is mediated by an L-fucose-H+ symport activity. In order to determine the nature of a putative transporter encoded by the E. coli fucP gene and identify its protein product it was cloned downstream of the inducible T7 RNA polymerase and lambda OLPL promoters. Induction of the T7 promoter resulted in the expression of [14C]-L-fucose uptake activity and the concomitant expression of a [35S]-Met-labelled 32 kDa protein at levels too low for detection by staining with Coomassie brilliant blue or for protein sequencing. Induction of the lambda OLPL promoter caused the appearance of L-fucose-H+ symport activity and of a Coomassie brilliant blue-stained 32 kDa membrane protein expressed at high levels sufficient for identification as FucP by N-terminal protein sequencing. The FucP protein is, therefore, a sugar-H+ symporter different in amino acid sequence from any other known transporter. These and other results illustrate the general unpredictability of cloning strategies for attempting the amplified expression of membrane transport proteins.
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PMID:Identification of a novel sugar-H+ symport protein, FucP, for transport of L-fucose into Escherichia coli. 805 31

Mammalian ribonucleotide reductase is a heterotetramer formed by the two non-identical homodimers proteins R1 and R2. We have succeeded in expressing the 90-kDa mouse R1 protein in Escherichia coli in an active, soluble form using the T7 RNA polymerase pET vector system. To avoid inclusion bodies, the bacteria were grown at 15 degrees C with minimal concentration of the inducer isopropyl-1-thio-beta-D-galactopyranoside. After a rapid purification procedure, approximately 20 mg of pure R1 protein were obtained per liter of bacterial culture. The concentrated R1 protein solution had a pinkish red color. Spectroscopy in combination with iron and labile sulfur analyses demonstrated that the color originated from an iron-sulfur complex. However, all attempts to demonstrate a function of this complex have been inconclusive. A comparison of the recombinant R1 protein with the corresponding protein purified from calf thymus showed no evidence for glycosylation. Circular dichroism spectroscopy indicated an alpha-helical content of 50%. A flexible COOH-terminal tail of 7 residues in the R2 protein was earlier shown to be essential for binding to the R1 protein. Using a peptide protection assay and photoaffinity labeling, we now show that the R2 protein tail interacts with a region close to the carboxyl terminus of the R1 protein.
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PMID:Purification, characterization, and localization of subunit interaction area of recombinant mouse ribonucleotide reductase R1 subunit. 808 21

The RAD3 gene of Saccharomyces cerevisiae is required for excision repair of ultraviolet-damaged DNA and is essential for cell viability. The RAD3-encoded protein shares a high degree of homology with the human ERCC2(XPD) gene product. Mutations in XPD, besides causing the cancer-prone syndrome xeroderma pigmentosum, can also result in Cockayne's syndrome and trichothiodystrophy. To investigate the role of RAD3 in viability, we examined here the effect of a recessive, temperature-sensitive (ts) conditional lethal mutation of the gene on transcription by RNA polymerase II. Upon transfer to the restrictive temperature, the rad3-ts mutant rapidly ceases growth and poly(A)+ RNA synthesis is inhibited drastically. Messenger RNA levels of all the genes examined, HIS3, TRP3, STE2, MET19, RAD23, CDC7, CDC9 and ACT1, decline rapidly upon loss of RAD3 activity. The synthesis of heat-shock-inducible HSP26 mRNA and galactose-inducible GAL7 and GAL10 mRNAs is also drastically inhibited in the rad3-ts mutant at the restrictive temperature. The RNA polymerase II transcriptional activity in extract from the rad3-ts14 strain is thermolabile, and this in vitro transcriptional defect can be fully corrected by the addition of homogeneous RAD3 protein. These findings indicate that RAD3 protein has a direct and essential role in RNA polymerase II transcription.
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PMID:DNA repair gene RAD3 of S. cerevisiae is essential for transcription by RNA polymerase II. 810 80

The Saccharomyces cerevisiae GAL1 and GAL10 genes are controlled in response to the availability of galactose and glucose by multiple activating and repressing proteins bound at adjacent or overlapping sites in UASG. Negative control elements in UASG, designated GAL operators GALO1 to GALO6, are required to silence basal level transcription of GAL1 and GAL10 when galactose is absent. We isolated and characterized recessive mutations in six nuclear genes, TSF1 to TSF6, that impair silencing of GAL1 and GAL10 gene expression. Surprisingly, the results of several experiments suggest that the TSF genes encode global regulatory factors. tsf1 to tsf6 mutations derepressed expression from yeast CYC-GAL hybrid promoters (fused to lacZ) that harbor a variety of operator sequences, and caused pleiotropic defects in cell growth, mating, and sporulation. S1 mapping and Northern blot results for tsf3 suggest that the molecular defect is at the transcriptional level. Mutant phenotypes were additive in certain combinations of tsf double mutants, implying that more than one silencing pathway is involved in TSF1 to TSF6 function. Most significantly, mutations in all six TSF1 to TSF6 genes activated expression from GAL1 and CYC1 promoters (fused to lacZ) lacking upstream activating sequences. Combined, the simplest interpretation of these results is that TSF1 to TSF6 encode factors that control the function of the basic RNA polymerase II transcriptional machinery.
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PMID:TSF1 to TSF6, required for silencing the Saccharomyces cerevisiae GAL genes, are global regulatory genes. 834 4


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