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)

DNA templates suitable for direct synthesis of RNA probes are produced by the polymerase chain reaction. The nucleic acid sequence of interest is amplified using a downstream primer carrying the T7 RNA polymerase promoter sequence. The modified primer is incorporated into the amplified DNA, which is subsequently used for RNA probe synthesis in the presence of T7 RNA polymerase and a hapten-labeled ribonucleotide (digoxigenin-UTP). As a model, we prepared RNA probes specific for the BCR-ABL mRNA characteristic of chronic myelogenous leukemia. The probes are used in time-resolved fluorometric hybridization assays. Mixtures of BCR-ABL positive and negative cells, as well as whole blood samples, are analyzed. The sample mRNA is amplified using a biotinylated upstream primer. The amplified product (target DNA) is captured onto streptavidin-coated wells and hybridized to the RNA probe. The hybrids are detected with an alkaline phosphatase (ALP)-labeled antibody. ALP hydrolyzes the phosphate ester of fluorosalicylic acid, and the fluorosalicylate produced forms highly fluorescent ternary complexes with Tb(3+)-EDTA, which can be quantified by measuring the Tb3+ fluorescence in a time-resolved mode. As low as 0.4 fmol of target DNA can be detected. Also, a single leukemic cell may be detected in the presence of 0.5 million "normal" cells.
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PMID:Time-resolved fluorometric hybridization assays with RNA probes synthesized from polymerase chain reaction-generated DNA templates. 884 29

RNA polymerase core enzyme of Escherichia coli is composed of two alpha subunits and one each of the beta and beta' subunits. The C-terminal domain of the RNA polymerase alpha subunit plays a key role in molecular communications with class I transcription factors and upstream (UP) elements of promoter DNA, using the same protein surface. To identify possible differences in the functional roles of the two alpha subunits, we have developed a reconstitution method for hybrid RNA polymerases containing two distinct alpha subunit derivatives in a defined orientation ("oriented alpha-heterodimer"). The binding sites of two alpha C-terminal domains on the UP element DNA were determined by hydroxyl radical-based DNA cleavage mediated by (p-bromoacetamidobenzyl)-EDTA x Fe, which was bound at Cys-269 on the UP recognition surface of one or both alpha subunits. The results clearly indicated that the two alpha subunits bind in tandem to two helix turns of the rrnBP1 UP element, and that the beta'-associated alpha subunit is bound to the promoter-distal region.
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PMID:The two alpha subunits of Escherichia coli RNA polymerase are asymmetrically arranged and contact different halves of the DNA upstream element. 905 Aug 43

The core enzyme of Escherichia coli RNA polymerase acquires essential promoter recognition and transcription initiation activities by binding one of several sigma subunits. To characterize the proximity between sigma70, the major sigma for transcription of the growth-related genes, and the core enzyme subunits (alpha2 beta beta'), we analyzed the protein-cutting patterns produced by a set of covalently tethered FeEDTA probes [FeBABE: Fe (S)-1-(p-bromoacetamidobenzyl)EDTA]. The probes were positioned in or near conserved regions of sigma70 by using seven mutants, each carrying a single cysteine residue at position 132, 376, 396, 422, 496, 517, or 581. Each FeBABE-conjugated sigma70 was bound to the core enzyme, which led to cleavage of nearby sites on the beta and beta' subunits (but not alpha). Unlike the results of random cleavage [Greiner, D. P., Hughes, K. A., Gunasekera, A. H. & Meares, C. F. (1996) Proc. Natl. Acad. Sci. USA 93, 71-75], the cut sites from different probe-modified sigma70 proteins are clustered in distinct regions of the subunits. On the beta subunit, cleavage is observed in two regions, one between residues 383 and 554, including the conserved C and Rif regions; and the other between 854 and 1022, including conserved region G, regions of ppGpp sensitivity, and one of the segments forming the catalytic center of RNA polymerase. On the beta' subunit, the cleavage was identified within the sequence 228-461, including beta' conserved regions C and D (which comprise part of the catalytic center).
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PMID:Mapping the sigma70 subunit contact sites on Escherichia coli RNA polymerase with a sigma70-conjugated chemical protease. 960 Sep 10

The interferon-inducible, double-stranded (ds) RNA-dependent protein kinase (PKR) regulates protein synthesis initiation by phosphorylating the alpha-subunit of eukaryotic translation initiation factor 2 (eIF-2). The amino-terminal half of PKR contains two dsRNA binding domains, and the kinase domain resides in the carboxy-terminal half of the protein. PKR is a ribosomal-associated protein. In this report, we provide evidence that PKR contains three ribosome interaction sites, two that are localized in each of the dsRNA binding domains and one that is localized in the kinase domain. All three domains can associate with polysomes independently. The ribosome association of the dsRNA binding domains requires dsRNA binding activity. Ribosome interaction of either the individual or the combined dsRNA binding domains was disrupted by 0.1 M KCl. In contrast, the ribosome interaction of intact PKR and the isolated kinase domain was largely resistant to 0.5 M KCl. These results indicate that all three domains of PKR contribute to the high-affinity ribosomal association. After dissociation of polysomes with EDTA, both intact PKR and the isolated kinase domain were primarily associated with the 60S ribosomal subunit. Coexpression of the adenovirus VAI RNA, an RNA polymerase III gene product that binds and inactivates PKR, disrupted ribosomal association of intact PKR, but not of the isolated PKR kinase domain. The results support a model where VAI RNA induces a major conformational change in PKR to prohibit ribosome association of all interaction sites. In contrast, other inhibitors of PKR including vaccinia virus E3L and K3L gene products, and the HIV trans-activating response (TAR) element binding protein TRBP, did not disrupt ribosome association of PKR. The results suggest a novel mechanism by which viral RNAs may inactivate PKR through disrupting ribosome association.
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PMID:Identification and requirement of three ribosome binding domains in dsRNA-dependent protein kinase (PKR). 975 71

A cysteine-tethered DNA cleavage agent has been used to locate the position of region 2.5 of sigma70 in transcriptionally competent complexes between Escherichia coli RNA polymerase and promoters. In this study we have engineered sigma70 to introduce a unique cysteine residue at a number of positions in region 2.5. Mutant proteins were purified, and in each case, the single cysteine residue used as the target for covalent coupling of the DNA cleavage agent p-bromoacetamidobenzyl-EDTA.Fe (FeBABE). RNA polymerase core reconstituted with tagged sigma derivatives was shown to be transcriptionally active. Hydroxyl radical-based DNA cleavage mediated by tethered FeBABE was observed for each derivative of RNA polymerase in the open complex. Our results show that region 2.5 is in close proximity to promoter DNA just upstream of the -10 hexamer. This positioning is independent of promoter sequence. A model for the interaction of this region of sigma with promoter DNA is discussed.
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PMID:Organization of open complexes at Escherichia coli promoters. Location of promoter DNA sites close to region 2.5 of the sigma70 subunit of RNA polymerase. 989 Sep 89

Numerous studies suggest that C-ANCA are directly pathogenic in vasculitis by activating leucocytes (oxidative burst, enzyme release, endothelial cytotoxicity, etc.). We and others have shown that C-ANCA can also directly activate HUVEC, but the precise target on HUVEC is unknown. We show in this study that C-ANCA recognize various targets on the HUVEC membrane (different from PR3 in our model), leading to secondary cell activation. Polyclonal affinity-purified C-ANCA recognized targets on the unfixed endothelial membrane in fluorescent ELISA, flow cytometry, and immunoprecipitation studies. C-ANCA did not react with Fcgamma receptors. Reverse transcriptase-polymerase chain reaction (RT-PCR) experiments showed that HUVEC did not express PR3. The targets of polyclonal and monoclonal anti-PR3 antibodies on the endothelial membrane were not the same. Some epitopes were lost after trypsin-EDTA digestion and formaldehyde fixation of cells, whereas anti-PR3 targeted unfixed HUVEC. This suggests that anti-PR3 react with the endothelial membrane and recognize conformational epitopes shared with PR3. Endothelial cells may thus participate in the inflammation associated with Wegener's granulomatosis and contribute to the emergence of clinical manifestations.
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PMID:Anti-proteinase-3 (PR3) antibodies (C-ANCA) recognize various targets on the human umbilical vein endothelial cell (HUVEC) membrane. 993 66

Human small intestine epithelial cells (enterocytes) provide the first site for cytochrome P-450 (CYP)-catalyzed metabolism of orally ingested xenobiotics. The CYP composition of enterocytes could thus affect the potential toxicity or therapeutic efficacy of xenobiotics by modifying systemic uptake. We have characterized human enterocyte CYP composition to enable assessment of its functional roles. An isolation method for enterocytes from human small intestine was developed using EDTA buffer-mediated elution. Villous enterocytes were isolated in high yield, separated from crypt cells. Reverse transcriptase-polymerase chain reaction of total RNA from enterocytes revealed that CYP1A1, 1B1, 2C, 2D6, 2E1, 3A4, and 3A5 mRNA were expressed, but only CYP2C and 3A4 were detectable by Western immunoblotting in enterocyte microsomes from 10 human small intestines, whereas CYP1A1 was weakly detectable in two of eight intestines tested. Microsomal protein content decreased markedly along the small intestine from the duodenum to the ileum, whereas total CYP content and CYP3A4 erythromycin N-demethylase activity increased slightly in progressing from the duodenum to the jejunum and then decreased markedly toward the ileum. Levels of CYP3A4 and 2C protein did not decrease in concert as a function of length along the intestine distally. Maximal CYP content for the 10 intestines varied from 0.06 to 0.18 nmol/mg microsomal protein and maximal CYP3A4 erythromycin N-demethylase activity varied from 0.30 to 0.76 nmol/min/mg microsomal protein. In conclusion, CYP3A4 is the major form of CYP expressed in human small intestine enterocytes, CYP3A5 expression was not detected, CYP2C and, in some intestines, CYP1A1 were expressed. The highest metabolic activity occurred in the proximal intestine.
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PMID:Characterization of human small intestinal cytochromes P-450. 1038 24

Bacillus subtilis contains three metalloregulatory proteins belonging to the ferric uptake repressor (Fur) family: Fur, Zur, and PerR. We have overproduced and purified Fur protein and analyzed its interaction with the operator region controlling the expression of the dihydroxybenzoate siderophore biosynthesis (dhb) operon. The purified protein binds with high affinity and selectivity to the dhb regulatory region. DNA binding does not require added iron, nor is binding reduced by dialysis of Fur against EDTA or treatment with Chelex. Fur selectively inhibits transcription from the dhb promoter by sigmaA RNA polymerase, even if Fur is added after RNA polymerase holoenzyme. Since neither DNA binding nor inhibition of transcription requires the addition of ferrous ion in vitro, the mechanism by which iron regulates Fur function in vivo is not obvious. Mutagenesis of the fur gene reveals that in vivo repression of the dhb operon by iron requires His97, a residue thought to be involved in iron sensing in other Fur homologs. Moreover, we identify His96 as a second likely iron ligand, since a His96Ala mutant mediates repression at 50 microM but not at 5 microM iron. Our data lead us to suggest that Fur is able to bind DNA independently of bound iron and that the in vivo role of iron is to counteract the effect of an inhibitory factor, perhaps another metal ion, that antagonizes this DNA-binding activity.
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PMID:Interaction of Bacillus subtilis Fur (ferric uptake repressor) with the dhb operator in vitro and in vivo. 1040 May 88

Conformational changes within the carboxyl-terminal domain of the Escherichia coli RNA polymerase alpha-subunit (alpha-CTD) upon interaction with the DNA UP element or the transcription factor cAMP receptor protein (CRP) were studied by monitoring the spectral parameters of a fluorescent dye, fluorescein mercuric acetate, conjugated to various positions of alpha-CTD. When fluorescein mercuric acetate was conjugated to Cys located on helix I and the loop between helices III and IV, the spectral changes typical for DNA interaction were observed for the RNA polymerase-promoter binary complex with UP element-dependent rrnBP1 and the ternary complex with the CRP-dependent uxuAB promoter in the presence of cAMP/CRP. Likewise, the chemical nuclease iron-(p-bromoacetamidobenzyl)-EDTA conjugated to Cys-269 or Cys-272 introduced CRP-dependent cleavage of the uxuAB promoter, as in the case of rrnBP1 (Murakami, K., Owens, J. T., Belyaeva, T. A., Meares, C. F., Busby, S. J. W., and Ishihama, A. (1997) Proc. Natl. Acad. Sci. U. S. A. 94, 11274-11278), indicating that CRP rearranges the topology of the DNA contact surface in alpha-CTD. Conformational changes in alpha-CTD were also observed upon formation of a binary complex with the uxuAB (in the absence of CRP) and factor-independent T7D promoters. The spectral changes suggested that helix IV of alpha-CTD approaches the negatively charged phosphate moiety of DNA. In agreement with this prediction, iron-(p-bromoacetamidobenzyl)-EDTA conjugated to Cys-309 induced extensive DNA cleavage upstream from the uxuAB promoter -35 element. We propose that helix IV of alpha-CTD is involved in direct interaction with some promoters.
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PMID:Transcription activation mediated by the carboxyl-terminal domain of the RNA polymerase alpha-subunit. Multipoint monitoring using a fluorescent probe. 1062 54

We have purified DNA-dependent RNA polymerase II from Candida albicans, a human pathogenic yeast. The enzyme consists of 9 polypeptides that are unique to C. albicans, their mobility on SDS-PAGE being different from the mobility of the corresponding subunits of RNA polymerase II from Saccharomyces cerevisiae or C. utilis. In the present study we also demonstrate that RNA pol II from C. albican and C. utilis are metalloproteins containing approximately 5 mol of zinc per mole of enzyme. Although prolonged dialysis in 10 or 20 mM EDTA failed to remove Zn(II) from the C. albicans enzyme, in the C. utilis enzyme 3 Zn(II) ions could be removed and then reconstituted in the presence of excess Zn(II). o-Phenanthroline (5 mM) removed Zn(II) from C. albicans enzyme irreversibly in a time-dependent fashion with concomitant loss of enzyme activity. Circular dichroism studies revealed structural changes on removal of zinc, thus suggesting a role for Zn in maintenance of structural stability. Further, we demonstrate that the largest subunit of the C. utilis enzyme and the 3 large subunits of the C. albicans enzyme can bind radioactive zinc.
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PMID:DNA-dependent RNA polymerase II from Candida species is a multiple zinc-containing metalloenzyme. 1079 92

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