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)

Elongator is a histone acetyltransferase complex that associates with the elongating form of RNA polymerase II. We purified Elongator to virtual homogeneity via a rapid three-step procedure based largely on affinity chromatography. The purified factor, holo-Elongator, is a labile six-subunit factor composed of two discrete subcomplexes: one comprised of the previously identified Elp1, Elp2, and Elp3 proteins and another comprised of three novel polypeptides, termed Elp4, Elp5, and Elp6. Disruption of the yeast genes encoding the new Elongator proteins confers phenotypes indistinguishable from those previously described for the other elp mutants, and concomitant disruption of genes encoding proteins in either subcomplex does not confer new phenotypes. Taken together, our results indicate that holo-Elongator is a functional entity in vitro as well as in vivo. Metazoan homologues of Elp1 and Elp3 have previously been reported. We cloned the human homologue of yeast ELP4 and show that this gene is ubiquitously expressed in human tissues.
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PMID:RNA polymerase II elongator holoenzyme is composed of two discrete subcomplexes. 1143 42

Glucocorticoids are the most effective antiinflammatory drugs used in the treatment of asthma. They act by binding to a specific receptor (GR) that, upon activation, translocates to the nucleus and either increases (transactivates) or decreases (transrepresses) gene expression. Inhibition of pro-inflammatory transcription factors such as activator protein (AP)-1, signal transducers and activators of transcription (STATs), nuclear factor of activated T cells (NFAT) and nuclear factor (NF)-kappa B is thought to be a major action of glucocorticoids. Acetylation of histones allows unwinding of the local DNA structure and enables RNA polymerase II to enhance gene transcription. Histone acetylation is regulated by a balance between the activity of histone acetyltransferases (HATs) and histone deacetylases (HDACs). GR acts as a direct inhibitor of NF-kappa B-induced HAT activity and also by recruiting HDAC2 to the NF-kappa B/HAT complex. A sub-group of patients with glucocorticoid-insensitive asthma have an inability to induce histone acetylation in response to dexamethasone suggesting reduced expression of a GR-specific HAT. This suggests that pharmacological manipulation of specific histone acetylation status is a potentially useful approach for the treatment of inflammatory diseases. Identification of the precise mechanism by which activated GR recruits HDAC2 may reveal new targets for the development of drugs that may dissociate the antiinflammatory actions of glucocorticoids from their side effects that are largely due to gene induction.
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PMID:Glucocorticoid-regulated transcription factors. 1144 48

Gene activity in a eukaryotic cell is regulated by accessory factors to RNA polymerase II, which include the general transcription factor complex TFIID, composed of TBP and TBP-associated factors (TAFs). Three TAFs that contain histone fold motifs (yTAF17, yTAF60 and yTAF61) are critical for transcriptional regulation in the yeast Saccharomyces cerevisiae and are found in both TFIID and SAGA, a multicomponent histone acetyltransferase transcriptional coactivator. Although these three TAFs were proposed to assemble into a pseudooctamer complex, we find instead that yTAF17, yTAF60 and yTAF61 form a specific TAF octamer complex with a fourth TAF found in TFIID, yTAF48. We have reconstituted this complex in vitro and established that it is an octamer containing two copies each of the four components. Point mutations within the histone folds disrupt the octamer in vitro, and temperature-sensitive mutations in the histone folds can be specifically suppressed by overexpressing the other TAF octamer components in vivo. Our results indicate that the TAF octamer is similar both in stoichiometry and histone fold interactions to the histone octamer component of chromatin.
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PMID:A histone fold TAF octamer within the yeast TFIID transcriptional coactivator. 1147 60

Human Elongator complex was purified to virtual homogeneity from HeLa cell extracts. The purified factor can exist in two forms: a six-subunit complex, holo-Elongator, which has histone acetyltransferase activity directed against histone H3 and H4, and a three-subunit core form, which does not have histone acetyltransferase activity despite containing the catalytic Elp3 subunit. Elongator is a component of early elongation complexes formed in HeLa nuclear extracts and can interact directly with RNA polymerase II in solution. Several human homologues of the yeast Elongator subunits were identified as subunits of the human Elongator complex, including StIP1 (STAT-interacting protein 1) and IKAP (IKK complex-associated protein). Mutations in IKAP can result in the severe human disorder familial dysautonomia, raising the possibility that this disease might be due to compromised Elongator function and therefore could be a transcription disorder.
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PMID:Purification and characterization of the human elongator complex. 1171 25

The putative Kluyveromyces lactis zymocin target complex, TOT, from Saccharomyces cerevisiae comprises five Tot proteins, four of which are RNA polymerase II (RNAP II) Elongator subunits. Recently, two more Elongator subunit genes, ELP6 (TOT6) and ELP4 (TOT7), have been identified. Deletions of both TOT6 and TOT7 result in the complex tot phenotype, including resistance to zymocin, thermosensitivity, slow growth and hypersensitivity towards drugs, thus reinforcing the notion that TOT/Elongator may be crucial in signalling zymocicity. Mutagenesis of ELP3/TOT3, the Elongator histone acetyltransferase (HAT) gene, revealed that zymocin sensitivity could be uncoupled from Elongator wild-type function, indicating that TOT interacts genetically with zymocin. To test the possibility that zymocin functions by affecting RNAP II activity in a TOT/Elongator-dependent manner, global poly(A)+ mRNA levels were found to decline drastically on zymocin treatment. Moreover, cells overexpressing Fcp1p, the RNAP II carboxy-terminal domain phosphatase, acquired partial zymocin resistance, whereas cells underproducing RNAP II became zymocin hypersensitive. This suggests that zymocin may convert TOT/Elongator into a cellular poison toxic for RNAP II function and eventually leading to the observed G1 cell cycle arrest.
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PMID:Kluyveromyces lactis zymocin mode of action is linked to RNA polymerase II function via Elongator. 1173 49

Activation of gene transcription involves chromatin remodeling by coactivator proteins that are recruited by DNA-bound transcription factors. Local modification of chromatin structure at specific gene promoters by ATP-dependent processes and by posttranslational modifications of histone N-terminal tails provides access to RNA polymerase II and its accompanying transcription initiation complex. While the roles of lysine acetylation, serine phosphorylation, and lysine methylation of histones in chromatin remodeling are beginning to emerge, low levels of arginine methylation of histones have only recently been documented, and its physiological role is unknown. The coactivator CARM1 methylates histone H3 at Arg17 and Arg26 in vitro and cooperates synergistically with p160-type coactivators (e.g., GRIP1, SRC-1, ACTR) and coactivators with histone acetyltransferase activity (e.g., p300, CBP) to enhance gene activation by steroid and nuclear hormone receptors (NR) in transient transfection assays. In the current study, CARM1 cooperated with GRIP1 to enhance steroid hormone-dependent activation of stably integrated mouse mammary tumor virus (MMTV) promoters, and this coactivator function required the methyltransferase activity of CARM1. Chromatin immunoprecipitation assays and immunofluorescence studies indicated that CARM1 and the CARM1-methylated form of histone H3 specifically associated with a large tandem array of MMTV promoters in a hormone-dependent manner. Thus, arginine-specific histone methylation by CARM1 is an important part of the transcriptional activation process.
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PMID:Hormone-dependent, CARM1-directed, arginine-specific methylation of histone H3 on a steroid-regulated promoter. 1174 26

Rpb9 is a small subunit of yeast RNA polymerase II participating in elongation and formed of two conserved zinc domains. rpb9 mutants are viable, with a strong sensitivity to nucleotide-depleting drugs. Deleting the C-terminal domain down to the first 57 amino acids has no detectable growth defect. Thus, the critical part of Rpb9 is limited to a N-terminal half that contacts the lobe of the second largest subunit (Rpb2) and forms a beta-addition motif with the "jaw" of the largest subunit (Rpb1). Rpb9 has homology to the TFIIS elongation factor, but mutants inactivated for both proteins are indistinguishable from rpb9 single mutants. In contrast, rpb9 mutants are lethal in cells lacking the histone acetyltransferase activity of the RNA polymerase II Elongator and SAGA factors. In a two-hybrid test, Rpb9 physically interacts with Tfa1, the largest subunit of TFIIE. The interacting fragment, comprising amino acids 62-164 of Tfa1, belongs to a conserved zinc motif. Tfa1 is immunoprecipitated by RNA polymerase II. This co-purification is strongly reduced in rpb9-Delta, suggesting that Rpb9 contributes to the recruitment of TFIIE on RNA polymerase II.
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PMID:The Rpb9 subunit of RNA polymerase II binds transcription factor TFIIE and interferes with the SAGA and elongator histone acetyltransferases. 1177 53

A human Elongator complex was purified from HeLa cells and found to be composed of three polypeptides. Human Elongator contains histone acetyltransferase activity with specificity to histone H3 and, to a much lesser extent, to histone H4. Although many reports have suggested a role for the yeast Elongator in transcription elongation through chromatin templates, no direct evidence supporting this function exists. In the present study, we demonstrate that the human Elongator facilitates transcription by RNA polymerase II in a chromatin- and acetyl-CoA-dependent manner. The complex was found to directly interact with RNA polymerase II but failed to interact with other factors that facilitated RNA polymerase II to traverse through nucleosomes. From our results, we postulate that different mechanisms operate to ensure efficient transcription by RNA polymerase II on chromatin templates.
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PMID:Human Elongator facilitates RNA polymerase II transcription through chromatin. 1181 76

Nuclear hormone receptors are ligand-activated transcription factors that regulate the expression of genes that are essential for development, reproduction and homeostasis. The hormone response is mediated through recruitment of p160 receptor coactivators and the general transcriptional coactivator CBP/p300, which function synergistically to activate transcription. These coactivators exhibit intrinsic histone acetyltransferase activity, function in the remodelling of chromatin, and facilitate the recruitment of RNA polymerase II and the basal transcription machinery. The activities of the p160 coactivators are dependent on CBP. Both coactivators are essential for proper cell-cycle control, differentiation and apoptosis, and are implicated in cancer and other diseases. To elucidate the molecular basis of assembling the multiprotein activation complex, we undertook a structural and thermodynamic analysis of the interaction domains of CBP and the activator for thyroid hormone and retinoid receptors. Here we show that although the isolated domains are intrinsically disordered, they combine with high affinity to form a cooperatively folded helical heterodimer. Our study uncovers a unique mechanism, called 'synergistic folding', through which p160 coactivators recruit CBP/p300 to allow transmission of the hormonal signal to the transcriptional machinery.
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PMID:Mutual synergistic folding in recruitment of CBP/p300 by p160 nuclear receptor coactivators. 1182 64

Regulation of inflammatory gene transcription is controlled, at least in part, by the degree of local unwinding of nucleosomal DNA. This unwinding is regulated by histone acetylation--increased acetylation results in a more loosely wound structure allowing access of basal transcription factors and RNA polymerase II. In contrast hypoacetylation of histones leads to tighter winding of DNA and reduced gene transcription. In this article we describe methods for measuring the histone acetyltransferase (HAT) and deacetylase (HDAC) activity of A549 cells. We initially describe methods examine whole cell HAT and HDAC activities and subsequently describe a technique for examining HAT activity associated with a specific co-activator CBP isolated by immunoprecipitation. These methods can also be applied to protein extracts from primary cells and from biopsy samples.
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PMID:Histone acetylation and histone deacetylation. 1187 4


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