Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 relationship between estrogen receptor(R) binding by uterine nuclei and uterotrophic responses was examined. Immature rats received a single injection of estradiol (E2) or estriol (E3) and the following parameters were measured: accumulation and retention of the estrogen receptor by the nuceus of uterine cells; incorporation of 14C-glucose into CO2 lipid, protein and RNA; RNA polymerase activity; water imbibition and increased dry weight. E2 and E3 were of equal potency with regard to the rapid accumulation of R by the nucleus but differed with respect to long term retention of R. The concentrations of nuclear RE2 and RE3 complexes were equivalent between 1 and 3 hr after estrogen injection; however, by 6 hr RE2 remained significantly elevated while RE3 levels had fallen to control values. E2 and E3 were also of equal potency with respect to the stimulation of enhanced glucose utilization, water imbibition, the incorporation of 14C-glucose into lipid, protein and RNA 3 hours following an injection of the hormone. Likewise the activity of RNA polymerase was equally stimulated by E2 and E3 3 hr after injection. Thus all early uterotropic responses (0-3 hrs) that were measured were equally stimulated by E2 and E3. However, E3 failed to stimulate true uterine growth (increase dry weight 24 hr after injection), whereas E2 produced a significant stimulation of true uterine growth. These data suggest that the RE complex is capable of stimulating early uterotrohic events regardless of which estrogen is present; however, in order to produce true uterine growth the RE complex must be retained in the nucleus for long periods of time. This proposal was tested by the administration of repetitive injections of E3. This treatment resulted in an increase in dry weight that was equivalent to the growth that was produced by repetitive injections of E2. These results demonstrate that E2 and E3 elicit early uterotrophic responses with equal facility following a single injection but that only E2 causes true uterine growth. The ability of E2 to stimulate true uterine growth appears to be related to the time of residence of the RE complex in the nucleus.
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PMID:Estrogen-induced uterine responses and growth: relationship to receptor estrogen binding by uterine nuclei. 16 76

SV40 DNA fragments chemically attached to neutral cellulose powder with a water-soluble carbodiimide have been used to isolate late lytic viral specific RNA from virus infected cells. Exhaustive hybridization to SV40 DNA reveals that virtually all of the isolated RNA molecules contain SV40 specific sequences. Comparison with SV40 cRNA prepared with purified Escherichia coli RNA polymerase and a SV40 DNA I template suggests that the purity of the isolated SV40 specific RNA is very close to 100%. The background level for the nonspecific binding of RNA to a purified cellulose matrix is very low. Retention of nonspecific RNA by SV40 DNA-cellulose is only 1.5% of the viral specific RNA isolated under saturating conditions for the column. Sedimentation in neutral sucrose suggests that the major 16S viral specific RNA has been isolated largely intact.
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PMID:Isolation of viral specific RNA from SV40 infected cells by viral DNA chemically linked to a cellulose matrix. 17 23

The interaction of Mn2+, substrates and initiators with RNA polymerase have been studied by kinetic and magnetic resonance methods. As determined by electron paramagnetic resonance, Mn2+ binds to RNA polymerase at one tight binding site with a dissociation constant less than 10 muM and at 6 +/- 1 weak binding sites with dissociation constants 100-fold greater. The binding of Mn2+ to RNA polymerase at both types of sites causes an order of magnitude enhancement of the paramagnetic effect of Mn2+ on the longitudinal relaxation rate of water protons, indicating the presence of residual water ligands on the enzyme-bound Mn2+. A kinetic analysis of the Mn2+-activated enzyme with poly(dT) as template indicates the substrate to be MnATP under steady-state conditions in the presence or absence of the initiator ApA. ATP and UTP interact with the tightly bound Mn2+ to form ternary complexes with approximately 50% greater enhancement factors. The dissociation constant of MnATP from the tight Mn2+ site as determined by longitudinal proton relaxation rate (PRR) titration (4.7 muM) is similar to the KM of MnATP in the ApA-initiated RNA polymerase reaction (10 +/- 3 muM) but not in the ATP-initiated reaction (160 +/- 30 muM). Similarly, the dissociation constant of the substrate MnUTP from the tight Mn2+ site (90 muM) is in agreement with the KM of MnUTP (101 +/- 13 muM) when poly[d(A-T)]-poly[d(A-T)] is used as template, indicating the tight Mn2+ site to be the catalytic site for RNA chain elongation. Manganese adenylyl imidodiphosphate (MnAMP-PNP) has been found to be a substrate for RNA polymerase. It has the same affinity as MnATP for the tight site but, unlike the results obtained with MnATP, the enhancement is decreased by 43% in the enzyme Mn-AMP-PNP complex. These results suggest that the enzyme-bound Mn2+ interacts with the leaving pyrophosphate group. The initiators ApA and ApU and the inhibitor rifamycin interact with the enzyme-Mn2+ complex producing small (15-20%) decreases in the enhancement. The dissociation constant of ApA estimated from PRR data (less than or equal to 1.5 muM) agrees with that determined kinetically (1.0 +/- 0.5 muM) as the concentration of ApA required to produce half-maximal change in the KM of MnATP. In the presence of the initiation specific reagents ApA, ApU, or rifamycin, the affinity of the enzyme-Mn complex for ATP or UTP shows little change. However, ATP and UTP no longer increase the enhancement factor of the tightly bound Mn2+ but decrease it by 30-55%, indicating a change in the environment of the Mn2+-substrate complex on the enzyme when the initiation site is either occupied or blocked. Although the role of the six weak Mn2+ binding sites is not clear, the presence of a single tightly bound Mn2+ at the catalytic site for chain elongation which interacts with the substrate reinforces the number of active sites as one per molecule of holoenzyme and provides a paramagnetic reference point for further structural studies.
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PMID:Magnetic resonance and kinetic studies of the role of the divalent cation activator of RNA polymerase from Escherichia coli. 18 95

The effects of fasting, and subsequent force-feeding of L-tryptophan on the activity of hepatic nuclear DNA-dependent RNA polymerases were studied in adult (5-6 weeks old), and old (5-6 months) male Wistar rats. Liver nuclei, nucleoli, and nucleoplasmic fraction were isolated from rats following a single tube-feeding of tryptophan or water, and were assayed in vitro for the activity of different RNA polymerases. Whereas in adult rats 24 h of fasting caused a significant reduction in the activity of RNA polymerase I and II, in old rats the activity of only polymerase II was decreased after 24 h of fasting. In fasted adult rats administration of tryptophan promptly restored the activities of both polymerases to the respective normal fed levels, while in old rats none of the polymerases were affected by tryptophan. In fasted adult rats the pattern of response for both forms of polymerases to a single tube-feeding of tryptophan, over a period of 5 h, was found to be biphasic. When ribonuclease activity of nuclei was suppressed by performing incubations at low temperatures (17-30 degrees C) the difference between the two groups for polymerase I was greatly reduced, and for polymerase II the difference was fully abolished. Pre-treatment of fasted adult rats with cycloheximide (1.5 mg/kg) was found to abolish the 30 min tryptophan-mediated stimulation of both polymerase I and II activities. In cycloheximide pretreated rats the activity of polymerase II, but not polymerase I returned to its original level 5 h after tryptophan force-feeding.
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PMID:Effects of fasting and tryptophan force-feeding on the activity of hepatic nuclear RNA polymerases in rats. 52 54

Dessicated and encysted gastrulae of the brine shrimp Artemia salina remain metabolically dormant until they are rehydrated. At this time development resumes, culminating in the hatching of free swimming nauplius larvae. The resumption of embryogenesis provides a convenient system for studying biochemical events which accompany development of a eukaryotic organism, and in particular Artemia has proven useful for studies of the transcriptional regulation of gene expression. Encysted gastrulae of Artemia yielded only trace amounts of DNA-dependent RNA polymerase activity when crude nuclear pellets were subjected to sonication at high ionic strength. Furthermore, when crude nuclear pellets from encysted gastrulae and developing nauplius larvae were mixed prior to sonication, subsequent solubilization of proteins from the mixture did not yield RNA polymerase activity; sonication of the pellet from nauplii alone resulted in the solubilization of large quantities of RNA polymerases I and II as we have previously found [1]. RNA polymerases I and II were detectable in sonicates of crude nuclear pellets after 1-h incubation of Artemia cysts in sea water. This presents the possibility that dormant gastrulae of the brine shrimp contain RNA polymerase which is inactive, and that the rapid appearance of nuclear enzymatic activity which accompanies the resumption of development may not require de novo synthesis of the polymerase.
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PMID:DNA-dependent RNA polymerases from Artemia salina. IV. appearance of nuclear RNA polymerase activity during pre-emergence development of encysted embryos. 59 25

Embryos and larvae of the brine shrimp, Artemia salina, provide a useful biological system for biochemical studies of animal development. Dormant encysted embryos can be cultured readily in the laboratory to provide large quantities of free-swimming nauplius larvae. The rate of synthesis of all classes of RNA in swimming larvae declines markedly between 24 and 72 h after immersion of dormant embryos in sea water. Nuclei were isolated from 24-72 h larvae and RNA polymerase activity was measured under conditions in which the nuclei remained intact. Total RNA polymerase activity of isolated nuclei decreased in parallel with RNA synthesis in vivo. RNA polymerases were solubilized from nuclei and fractionated by chromatography on DEAE-cellulose. The levels of both RNA polymerases I and II also decreased in parallel with RNA synthesis in vivo. The specific activity of highly purified RNA polymerase II was determined by comparison of enzyme activity with the mass of RNA polymerase II subunits displayed on SDS gels. The specific activities of RNA polymerase II preparations from 24 and 72 h larvae were identical. The number of polymerase II molecules was estimated from the mass of the subunits. The number of molecules per nucleus declined from 20,000 at 24 h to 3500 at 72 h.
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PMID:DNA-dependent RNA polymerases from Artemia salina: decreasing polymerase activities and number of polymerase II molecules in developing larvae. 72 50

Crude calf thymus DNA-dependent RNA polymerase, RNA polymerase B (ribonucleoside triphosphate: RNA nucleotidyltransferase, EC 2.7.7.6), was incubated with the tritium labeled, potent inhibitor [3H]amanin, in order to form the enzymatically inactive [3H]amanin-polymerase complex ([3H]A-P complex). Subsequent purification procedures for the [3H]A-P complex were based on radioactive assays. Phosphocellulose chromatography separated two radioactive components: PCI, the previously reported amatoxin binding protein, ABP (Brodner and Wieland, 1976), and PC II, the [3H]A-P complex. Sodium dodecyl sulfate gel electrophoresis of the complex showed the presence of a new heavy band very close to subunit B 1 and a decreased intensity of subunit band B 3. These were the only differences noted in the subunit structure of RNA polymerase B. [3H]Amanin was covalently coupled to the enzyme, affinity labeling, by a water-soluble carbodiimide and the resultant conjugate submitted to sodium dodecyl sulfate gel electrophoresis. The profile of radioactivity showed one main peak (greater than 2000 cpm) coinciding with the 550-nm absorption peak of subunit B 3 on a stained parallel gel. Since no other protein band contains any significant radioactivity, the binding site for [3H]amanin and most probably for all amatoxins is localized on the B 3 subunit SB 3.
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PMID:Identification of the amatoxin-binding subunit of RNA polymerase B by affinity labeling experiments. Subunit B3-the true amatoxin receptor protein of multiple RNA polymerase B. 95 70

When cytoplasmic protein synthesis is inhibited by cycloheximide (CHI) in vivo synthesis of water-soluble mitochondrial proteins and of mitochondrial RNA is decreased. These changes measured in isolated rat liver mitochondria are similar to those observed in vivo and correlate with the changes the synthesis of water-soluble proteins in mitochondria. When the cytoplasmic fraction (30,000 g-supernatant) had been added to the mitochondria showing decreased RNA synthesis, the RNA synthesis increased to the control level (the incubation conditions were favourable for the protein transport from microsomes to mitochondria). RNA synthesis in mitochondria was not stimulated by cytoplasmic fractions from the CHI-pretreated rats. After prolonged dialysis these fraction stimulated RNA synthesis even to a greater extent than cytoplasmic fractions from the untreated animals. Mitochondrial RNA polymerase activity (measured in mitochondrial extracts supplemented with exogenous DNA) was higher in extracts of mitochondria from livers of normal rats than in extracts of mitochondria from livers of animals injected with CHI.
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PMID:[RNA biosynthesis in mitochondria under conditions of prolonged inhibition of protein biosynthesis in rat liver cytoplasm]. 105 82

The fructose-2,6-bisphosphatase domain of 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase has been shown to be structurally and functionally homologous to phosphoglycerate mutase. Both enzymes catalyze their reactions via phosphoenzyme intermediates which utilize an active site histidine as a nucleophilic phosphoacceptor and another histidine as a proton donor to the leaving group. Glu327 in the bisphosphatase domain of the rat liver bifunctional enzyme is conserved in all phosphoglycerate mutase structures and is postulated, by modelling studies, to be located in the active site. Glu327 was mutated to Ala, Gln, or Asp. The mutant and wild-type enzymes were expressed in Escherichia coli with a T-7 RNA polymerase-based expression system and purified to homogeneity by substrate elution from phosphocellulose. The Glu327 mutants had apparent molecular weights of 110,000 by gel filtration and had unaltered 6-phosphofructo-2-kinase activity. Circular dichroism showed that the secondary structure of the Glu327 mutant enzyme forms was the same as the wild-type enzyme. The maximal velocity of the fructose-2,6-bisphosphatase of the Glu327----Ala, Glu327----Gln, and Glu327----Asp mutants was 4, 2, and 20%, respectively, that of the wild-type enzyme, but the rate of phosphoenzyme formation of the mutants was reduced by at least a factor of 1000. In addition, the rate constants of phosphoenzyme hydrolysis for the Glu372----Ala and Glu327----Gln mutants were 2.7 and 1.3%, respectively, of the wild type, whereas the rate constant for the Glu327----Asp mutant was 60% of the wild-type value. Glu327 was not a substrate or product binding site determinant since the Km for fructose-2,6-bisphosphate and Ki for fructose-6-phosphate of the mutants were not appreciably changed. The results implicate Glu327 as part of a catalytic triad in fructose-2,6-bisphosphatase and suggest that it influences the protonation state of the active site histidine residues during phosphoenzyme formation and/or acts as a base catalyst to enhance the nucleophilic attack of water on the phosphoenzyme intermediate.
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PMID:Glu327 is part of a catalytic triad in rat liver fructose-2,6-bisphosphatase. 131 12

NMR (600 MHz) studies on YSPTSPSY (1), the heptad repeat unit of RNA polymerase II with an extra tyrosine added to the N-terminus, show that the peptide is partially structured in aqueous solution. Peptide 1 contains two overlapping SPXX sequences and has been reported to bind to DNA by bisintercalation (Suzuki, M. Nature 1990, 344, 562-565). In 90% H2O solution at pH 3.2, the major species, which is present in > 90%, contains Pro3 and Pro6 in the trans conformation. At low temperature (4 degrees C), NOE connectivities are consistent with the presence of beta-turn structures in equilibrium with unfolded forms of the peptide. A strong dNN connectivity between Thr4/Ser5, a d alpha N connectivity between Pro3/Thr4, and a medium-range NOE between Pro3 alpha and Ser5 NH indicate the presence of a beta-turn formed by (i) Ser2-Pro3-Thr4-Ser5. A strong dNN connectivity between Ser7/Tyr8 and weaker dN delta NOE connectivities between Ser2/Pro3 delta and Ser7/Pro6 delta were also detected. The solution conformation of the peptide appears to have a crucial role in determining the interaction of the peptide with DNA, given that only bisintercalation has been reported in DNA-binding studies on 1 (Suzuki, M. Nature 1990, 344, 562-565). On the basis of these results, the peptide unit--SPTSPS--(3) has considerable potential as a structured linker in the preparation of DNA bisintercalators of the general structure Xaa-SPTSPS-Zaa (2) with improved selectivity properties.
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PMID:NMR studies on YSPTSPSY: implications for the design of DNA bisintercalators. 146 95


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