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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)

RNA polymerase (RNA nucleotidyltransferase) B (or II) and histone H1 of Drosophila melanogster were localized on salivary gland polytene chromosomes using the indirect immunofluorescence technique. RNA polymerase B is present almost exclusively in puffs and interband regions, whereas histone H1 is found primarily in bands. The puff at region 3C, known to be transcriptionally active in larval salivary glands, gives a bright fluorescence with antibodies against RNA polymerase B. This fluorescence disappears after exposure of the larvae to 37 degrees for 45 min. The heat shock treatment results in a general reduction of fluorescence intensity with the appearance of brightly staining heat shock puffs. Heat-induced removal of RNA polymerase molecules from a puff does not immediately alter its morphology. We propose than an interband represents that fraction of the total number of gene copies in a band that are active, the inactive copies being present in a condensed form in the adjacent band. Large puffs would originate through the decondensation and activation of most or all gene copies in a band.
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PMID:Localization of RNA polymerase in polytene chromosomes of Drosophila melanogaster. 40 71

Using indirect immunofluorescence visualization techniques we investigated the distribution of RNA polymerase B (or II) and histone H1 at heat shock puff loci in Drosophila melanogaster polytene chromosomes at different times during and after heat shock. After heat treatments of from 5 to 45 min, the heat shock puff displayed intense fluorescence when stained for RNA polymerase B, but relatively little fluorescence when stained for histone H1. Returning heat shocked larvae to room temperature resulted in the appearance of a distinctive pattern of RNA polymerase-associated fluorescence in the heat shock puff at 87C, presumably reflecting events associated with the inactivation and regression of this puff. Large differences observed in the apparent RNA polymerase B content of puffs of similar size suggest that the interaction of RNA polymerase B with chromosomal loci does not depend on simply the state of condensation or decondensation of the chromatin.
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PMID:RNA polymerase B (or II) in heat induced puffs of Drosophila polytene chromosomes. 41

The transcription of freshly prepared nuclei and lysates from rat liver is stimulated by exogenous RNA polymerase B from calf thymus to an insignificant extent only. This also holds for chromatin isolated from nuclei lysates by separation on a Sepharose 4 B column. After removal of histone H1 by pretreatment with 0.2 M ammonium sulphate no further stimulation by added RNA polymerase has been found. If, however, the incubation time was extended, or the nuclei had been kept frozen at -20 degrees C for some time before use, a significant increase in RNA synthesis by the added RNA polymerase was obtained. In the freshly prepared nuclei as well as in the undamaged chromatin the template capacity was highly restricted. This can be seen from the fact that after pretreatment of the chromatin with 0.4 M ammonium sulphate the RNA synthesis was stimulated about 13fold.
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PMID:Transcriptional capacity of rat liver nuclei and of isolated chromatin at different ammonium sulphate concentrations. 70 21

Using indirect immunofluorescence visualization techniques we investigated the in situ distribution of RNA polymerase B on Drosophila melanogaster polytene chromosomes. The enzyme was found at many sites distributed throughout the genome in a pattern clearly distinct from that observed for histone H1, but it was especially concentrated in puffs induced by heat shock.
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PMID:Distribution of RNA polymerase on Drosophila polytene chromosomes as studied by indirect immunofluorescence. 82 28

HeLa cell interphase chromatin has been sheared and fractionated by isoelectric focusing. Chromatin fractions are obtained with a wide range of isoelectric points. No free DNA is observed. While protein/DNA rations are similar in the various fractions, they appear to contain different nonhistone chromosomal proteins. A minor chromatin fraction with isoelectric point congruent to 7.0 does not contain histone H1. This fraction is considerably more active as template with different RNA polymerases than the other fractions. Kinetic studies, in which RNA polymerase activity is assayed at various concentrations of chromatin, indicate that the greater activity of Escherichia coli RNA polymerase is due to an increased rate of transcription at saturating concentrations of template (Vmax) and is not due to a lower concentration required for half-maximal rate of transciption (Km). In contrast, the increased rate of transcription by calf-thymus RNA polymerases II and III is due to a decrease in chromatin concentration required for half-maximal rate of transcription rather than an increased rate of transcription at saturating concentrations of template. These results suggest that chromatin with isoelectric point congruent to 7 offers a greater frequency of binding sites for mammalian RNA polymerases, as would be expected for a "transcriptionally active" fraction.
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PMID:Composition and template activity of chromatin fractionated by isoelectric focusing. 91 91

Guinea-pig and mouse liver chromatin responds to the partial hepatectomy by an increase in binding of a basic dye acridine orange (AO) and by a decrease of its stability to heat in thermal denaturation test in situ. Degree of the changes in AO chromatin binding is identical in the cells of different ploidy and proportional to their DNA content. Treatment of the preparations by 0.6 M NaCl solutions under conditions bringing about the selective removal of histone H1 from the cells produces in vitro changes in DNA properties taking place in cells in vivo in the course of their activation. The treatment of cells with 0.35 M NaCl solution results in the disappearance of changes occurring in the chromatin of activated cells whereas the properties of control cells remain unchanged. The data obtained are interpreted as a result of the removal of some non-histone regulatory proteins from the chromatin of activated cells that is accompanied by changes in the character of DNA-histone interaction. At the time of maximum increase of AO binding a significant intensification of endogenous RNA polymerase activity was found, the incorporation of [3H] UTP in the nucleolus being higher than that in the extranucleolar part of the nucleus. High ionic strength in the incubation medium (0.4 M (NH4)2SO4) results in drastic increase of radioactive label in the nucleus and in the disappearance of differences between activated and non-activated chromatin. It is concluded that the intensification of RNA synthesis under the influence of proliferative stimulus is more likely dependent on the additional opening of DNA-matrix than on the direct activation of the enzyme.
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PMID:[Early changes in liver chromatin in response to partial hepatectomy]. 121 68

p34cdc2 kinase, a critical regulator of the cell cycle, has been shown to recognize the consensus sequence S/TP in proteins such as histone H1, the retinoblastoma gene product RB and the carboxyl-terminal domain of eukaryotic RNA polymerase II. Using phosphorylated synthetic peptides, representing the p34cdc2 phosphorylation sites in these proteins and histone H1 protein as substrates, we investigated the substrate specificity of the different oligomeric forms of the polycation-stimulated (PCS/type-2A) protein phosphatase and the active catalytic subunit of the ATP,Mg-dependent (AMDc/type 1) protein phosphatase. The results show that the oligomeric structure of the PCS phosphatases is an important determinant for efficient dephosphorylation. The trimeric PCSH1 and PCSM phosphatases are about 10-20-fold-better histone H1 phosphatases than the dimeric PCSH2 and PCSL phosphatases and about 100-fold better than the catalytic subunit (PCSC), suggesting a regulatory role for the 72-kDa, 65-kDa and 55-kDa subunits. The RB peptide = INGS(P)PRT(P)PRRGQNR, is preferred over phosphorylase a (8-fold) by the PCSH1 phosphatase and is about a 40-fold and 95-fold-better substrate for the PCSH1 phosphatase than for the PCSM and PCSL phosphatases, respectively. The primary structure surrounding the S/T(P)P motif, by itself a strong negative determinant for dephosphorylation, can harbour positive features which relieve the constraint imposed by the carboxyl-terminal proline. Thus, the RB peptide INGS(P)PRT(P)PRRGQNR, in which the T(P)P configuration is preferred over the S(P)P sequence, is an extremely good and specific substrate for the PCSH1 phosphatase (Km = 10 microM, Vmax = 3882 nmol.min-1.mg-1). The AMDC phosphatase is a poor phosphatase for all the phosphopeptides tested, unless Mn2+ is added. Its histone H1 phosphatase activity is much less sensitive than its phosphorylase a and phosphopeptide phosphatase activity to inhibition by the modulator or inhibitor-1. The results strongly suggest a role for the trimeric PCSH1 phosphatase in reversing the p34cdc2 phosphorylations.
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PMID:Specificity of the polycation-stimulated (type-2A) and ATP,Mg-dependent (type-1) protein phosphatases toward substrates phosphorylated by P34cdc2 kinase. 131 64

The initiation of RNA polymerase II transcription is controlled by DNA sequence-specific activator proteins, in combination with cofactor polypeptides whose function is poorly understood. Transcriptional cofactors of the CTF-1 activator were purified on the basis of their affinity for the regulatory protein. These purified cofactors were found to be required for CTF-1-regulated transcription, and they counteracted squelching by an excess of activator in in vitro reconstitution experiments. Interestingly, the cofactors possessed an inhibitory activity for basal transcription, which was relieved by the further addition of the activator. Histone H1 also contributes to the regulation of transcription by CTF-1, whereby the activator prevents repression of the basal transcription machinery by the histone. However, histone H1 could not replace the cofactors for CTF-1-regulated transcription, indicating that they possess distinct transcriptional properties. Furthermore, the purified cofactors were found to be required, together with the activator, in order to antagonize the histone-mediated repression of transcription. These results suggest that CTF-1 and its cofactors function by regulating the assembly of the basal transcription machinery onto the promoter when the latter is in competition with DNA-binding inhibitory proteins such as histone H1.
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PMID:Purified cofactors and histone H1 mediate transcriptional regulation by CTF/NF-I. 140 93

In vivo UV cross-linking and nuclear transcriptional run-on experiments have shown that a number of Drosophila genes possess an elongationally paused RNA polymerase on their 5' ends. Here, we examine in vivo promoters that do and do not possess paused polymerases using the single-stranded DNA-probing reagent KMnO4. Melted DNA helices are found associated with the pause site of the uninduced hsp70 and hsp26 heat shock genes and the constitutively expressed beta-1 tubulin gene. The histone H1 and H2B genes, which lack a paused polymerase, have no comparable region of melted DNA. Melting at the pause site persists upon heat shock induction of the hsp70 and hsp26 genes, indicating that pausing continues after gene activation. Interestingly, activation triggers additional melting, both at the start site (in the region where open complexes would be expected to form) and downstream of the uninduced pause site. In the course of our studies, we discovered that some T residues of the TATA box were protected from KMnO4 modification in both induced and uninduced cells. This protection appears to be a consequence of TFIID binding, as a similar protection pattern could be produced in vitro with purified protein.
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PMID:Promoter melting and TFIID complexes on Drosophila genes in vivo. 142 79

By using a DNase I footprinting assay, we have purified a factor by DNA affinity chromatography that binds to the minimal enhancer region of the Drosophila knirps gene and subsequently identified the protein as the core histone H2B. This inadvertent purification of a core histone as a putative sequence-specific DNA binding protein was due to a previously unknown property of H2B to interact with DNA in a periodic manner. Moreover, we found that each of the individual core histones, but not histone H1 or high mobility group protein 1, bound to the knirps enhancer to give a repetitive DNase I footprint pattern with a periodicity of about 10 base pairs, which is approximately one turn of the DNA helix. In addition, preparations containing the core histones H2A-H2B or H3-H4 yielded identical periodic DNase I footprint patterns on several different promoter and enhancer regions. These findings suggest that there are periodic, homotypic interactions between DNA-bound core histones that result from an alteration of the overall DNA structure such as the curvature rather than a specific sequence. We have also shown that histones H2A-H2B can repress initiation of transcription by RNA polymerase II. The phenomena described here may reflect histone-DNA interactions in non-nucleosomal stretches of chromatin and could be involved in some aspects of either rotational or translational positioning of nucleosomes. Furthermore, these findings indicate that a repeated 10 bp DNase I ladder, which has previously been considered to be a property of an intact nucleosome, can also be generated with subnucleosomal components. It will thus be necessary to reevaluate the criteria applied to the analysis of nucleosomes both in vivo and in vitro.
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PMID:Periodic binding of individual core histones to DNA: inadvertent purification of the core histone H2B as a putative enhancer-binding factor. 148 Apr 89

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