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)

Here we report that RNA polymerase (pol) III transcription is repressed in response to DNA damage by downregulation of TFIIIB, the core component of the pol III transcriptional machinery. Protein kinase CK2 transduces this stress signal to TFIIIB. CK2 associates with and normally activates the TATA binding protein (TBP) subunit of TFIIIB. The beta regulatory subunit of CK2 binds to TBP and is required for high TBP-associated CK2 activity and pol III transcription in unstressed cells. Transcriptional repression induced by DNA damage requires CK2 and coincides with downregulation of TBP-associated CK2 and dissociation of catalytic subunits from TBP-CK2 complexes. Therefore, CK2 is the terminal effector in a signaling pathway that represses pol III transcription when genome integrity is compromised.
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PMID:TATA binding protein-associated CK2 transduces DNA damage signals to the RNA polymerase III transcriptional machinery. 1155 5

The effects of the adenovirus infection on the distribution of the cellular protein kinase CK2 and double-stranded RNA-activated protein kinase (PKR) were examined at the ultrastructural level. Immunogold labeling revealed the redistribution of CK2 subunits and PKR to morphologically distinct structures of the cell nucleus. The electron-clear amorphous structures, designated pIX nuclear bodies in our previous work (Rosa-Calatrava et al., 2001), contained CK2 alpha and PKR. The protein crystals, which result from the regular assembly of hexon, penton base, and fiber proteins [Boulanger et al. (1970) J Gen Virol 6:329-332], contained CK2 beta and PKR. Both viral structures were devoid of viral RNA, including the PKR-inhibitor VA1 RNA generated by the RNA polymerase III. Instead, VA1 RNA accumulated in PKR-free viral compact rings in which the viral RNA generated by the RNA polymerase II was excluded.
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PMID:Adenovirus infection targets the cellular protein kinase CK2 and RNA-activated protein kinase (PKR) into viral inclusions of the cell nucleus. 1192 49

CK2 is a highly conserved protein kinase with growth-promoting and oncogenic properties. It is known to activate RNA polymerase III (PolIII) transcription in Saccharomyces cerevisiae and is shown here to also exert a potent effect on PolIII in mammalian cells. Peptide and chemical inhibitors of CK2 block PolIII transcription in human cell extracts. Furthermore, PolIII transcription in mammalian fibroblasts is decreased significantly when CK2 activity is compromised by chemical inhibitors, antisense oligonucleotides, or kinase-inactive mutants. Coimmunoprecipitation and cofractionation show that endogenous human CK2 associates stably and specifically with the TATA-binding protein-containing factor TFIIIB, which brings PolIII to the initiation site of all class III genes. Serum stimulates TFIIIB phosphorylation in vivo, an effect that is diminished by inhibitors of CK2. Binding to TFIIIC2 recruits TFIIIB to most PolIII promoters; this interaction is compromised specifically by CK2 inhibitors. The data suggest that CK2 stimulates PolIII transcription by binding and phosphorylating TFIIIB and facilitating its recruitment by TFIIIC2. CK2 also activates PolI transcription in mammals and may therefore provide a mechanism to coregulate the output of PolI and PolIII. CK2 provides a rare example of an endogenous activity that operates on the PolIII system in both mammals and yeasts. Such evolutionary conservation suggests that this control may be of fundamental importance.
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PMID:CK2 forms a stable complex with TFIIIB and activates RNA polymerase III transcription in human cells. 1199 11

The plastid transcription kinase (PTK), a component of the major RNA polymerase complex from mustard chloroplasts, has been implicated in redox-mediated regulation of plastid gene expression. A cloning strategy to define the PTK gene(s) resulted in the isolation of a full-length cDNA for a protein with overall high homology with the alpha subunit of cytosolic casein kinase (CK2) that contained an N-terminal extension for a putative plastid transit peptide. Using in organello chloroplast import studies, immunodetection and MS, we found that the corresponding protein, termed cpCK2alpha, is targeted to the chloroplast and is associated with the plastid RNA polymerase PEP-A. The bacterially overexpressed protein shows CK2 kinase activity and is subject to glutathione inhibition in the same way as authentic chloroplast PTK. Furthermore, it readily phosphorylates components of the plastid transcription apparatus in vitro with a substrate specificity similar to that of PTK.
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PMID:The plastid transcription kinase from mustard (Sinapis alba L.). A nuclear-encoded CK2-type chloroplast enzyme with redox-sensitive function. 1208 75

Cyclin dependent kinases are regulated by phosphorylation and dephosphorylation of the catalytic cdk subunits, by assembly with specific cyclins and by specific inhibitor molecules. Recently, it turned out that cyclins are also phosphoproteins, which means that they are also potential targets for a regulation by phosphorylation and dephosphorylation. Here, we show that cyclin H was phosphorylated by protein kinase CK2. Like most other CK2 substrates cyclin H was much better phosphorylated by the CK2 holoenzyme than by the alpha-subunit alone. By using point mutants derived from the cyclin H sequence we mapped the CK2 phosphorylation site at threonine 315 at the C-terminal end of cyclin H. Phosphorylation at this position had no influence on the assembly of the cyclin H/cdk7/Mat1 complex. However, phosphorylation at amino acid 315 of cyclin H turned out to be critical for a full cyclin H/cdk7/Mat1 kinase activity when the CTD peptide of RNA polymerase II or cdk2 was used as a substrate.
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PMID:The cyclin H/cdk7/Mat1 kinase activity is regulated by CK2 phosphorylation of cyclin H. 1214 Jul 53

Chloroplasts are the important plant cell organelles where photosynthesis takes place. Throughout this process, reaction center proteins are degraded and subsequently replenished by redox-responsive gene expression. In addition to well defined posttranscriptional mechanisms at the RNA and protein level, the transcription of chloroplast DNA into RNA precursors has been a focal point of studies in this area. Evidence has become available for a central role of a redox-responsive protein kinase named plastid transcription kinase (PTK) because of its association with the chloroplast transcription complex. The recent cloning of the PTK gene has resulted in a full-length cDNA for a protein related to the catalytic alpha subunit of nucleocytoplasmic casein kinase (CK2), yet with an additional chloroplast transit peptide. The corresponding protein, termed cpCK2alpha, was shown to be associated with the major organellar RNA polymerase, PEP-A. Both authentic PTK and recombinant cpCK2alpha have comparable general properties in vitro, and both are subject to regulation by the redox-reactive reagent glutathione. Based on the physical and functional equivalence, it is anticipated that the cloned protein can help clarify the functional role of the transcription kinase in vivo, including the identification of interaction partners at the interface between photosynthetic redox signaling and gene expression.
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PMID:Redox regulation of chloroplast transcription. 1262 19

It was shown more than 30 years ago that expression of ribosomal (r) RNAs processed from the large precursor rRNA is repressed when eukaryotic cells are exposed to genotoxic stress. More recently it has been found that other RNA components of the translational machinery, the tRNAs and 5S rRNA transcribed by RNA polymerase (pol) III, are also downregulated in cells that have experienced DNA damage. In other words, the DNA damage response involves coordinate repression of genes whose products comprise the heart of the translational machinery. This repression could be due to blockage of polymerase elongation, and indeed this mechanism was originally invoked to explain repression of pol I-transcribed rRNAs under conditions of genotoxic stress. Recent work however reveals the existence of a DNA damage signaling pathway that directly contributes to downregulation of the pol III and probably the pol I transcription initiation machinery. This pathway involves a highly conserved protein kinase, CK2. Its likely target is the TATA Binding Protein, which in most eukaryotes is required for transcription by both pol I and pol III. Here I consider the implications of these findings for our understanding of the physiology of the DNA damage response, and for the prospect of developing a comprehensive molecular model of how cells cope with genotoxic stress.
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PMID:DNA damage regulation of the RNA components of the translational apparatus: new biology and mechanisms. 1288 Feb 5

In higher eukaryotes, RNA polymerase (pol) III is known to use different transcription factors to recognize three basic types of promoters, but in no case have these transcription factors been completely defined. We show that a highly purified pol III complex combined with the recombinant transcription factors SNAP(c), TBP, Brf2, and Bdp1 directs multiple rounds of transcription initiation and termination from the human U6 promoter. The pol III complex contains traces of CK2, and CK2 associates with the U6 promoter region in vivo. Transcription requires CK2 phosphorylation of the pol III complex. In contrast, CK2 phosphorylation of TBP, Brf2, and Bdp1 combined is inhibitory. The results define a minimum core machinery, the ultimate target of regulatory mechanisms, capable of directing all steps of the transcription process-initiation, elongation, and termination-by a metazoan RNA polymerase, and suggest positive and negative regulatory roles for CK2 in transcription by pol III.
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PMID:A minimal RNA polymerase III transcription system from human cells reveals positive and negative regulatory roles for CK2. 1452 15

Cyclin-dependent kinase (CDK)11(p110), formerly known as PITSLRE, is a serine/threonine kinase whose catalytic activity has been associated with transcription and RNA processing. To further evaluate the regulation of CDK11(p110) catalytic activity, interacting proteins were identified by liquid chromatography and tandem mass spectrometry (LC-MS/MS). Following the immunoprecipitation of CDK11(p110) from COS-7 cells, the serine/threonine kinase CK2 was identified by LC-MS/MS. These results were extended through the observation that CDK11(p110) serves as a substrate for CK2 and the identification of a phosphorylation site on CDK11(p110) at Ser227 by LC-MS/MS. To obtain CDK11(p110) devoid of CK2, CDK11(p110) was expressed in High Five insect cells and secreted into the media due to the presence of a honeybee melittin signal sequence encoded at the amino-terminus of CDK11(p110). Recombinant CDK11(p110) was purified from the media and phosphorylation of histone H1 subsequently demonstrated. After demonstrating retention of CDK11(p110) kinase activity, it was evaluated for activity on the carboxyl-terminal domain (CTD) of the largest subunit of RNA polymerase II (RNAP II), but only CK2 was found to phosphorylate the CTD.
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PMID:Cyclin-dependent kinase 11(p110) activity in the absence of CK2. 1464 19

Synthetic peptides containing a phosphorylation site for protein kinase CK2 were used to investigate their binding properties to other peptides/proteins. The aim of this work was to find an efficient procedure to search for these peptide/protein ligands. The goal was successfully achieved through screening of random peptide libraries displayed on phage. Peptides corresponding to the amino terminal region of topoisomerase I were synthesized in both phosphorylated and unphosphorylated form and used to screen the libraries. Four of the selected sequences were also tested for their reactivity with synthetic peptides corresponding to the carboxy terminal region of the largest subunit of RNA polymerase II. The positive reaction detected supports the hypothesis that the isolated sequences may represent mimics of ligands of proteins phosphorylated by protein kinase CK2.
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PMID:Identification of peptides mimicking the ligands of proteins phosphorylated by protein kinase CK2. 1506

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