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)

The effect of the synthetic octapeptide pyroGLU-ASP-ASP-SER-ASP-GLU-GLU-ASN (phosphorylated by casein kinase II, CKII) on DNA transcription by RNA polymerase II has been studied. The peptide contains the acidic carboxy-terminus heptapeptide of the largest subunit of RNA polymerase II, which has been demonstrated to be a phosphorylation site for CKII. The aim of this work is to obtain some insights about the possible role of this domain in RNA polymerase II activity and DNA binding. Results demonstrated that the phosphorylated octapeptide causes strong inhibition of transcription of calf thymus DNA or pSVL SV40 plasmid DNA by RNA polymerase II, when used at concentrations between 0.4-4 micrograms/ml.
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PMID:Synthetic octapeptide pyroGLU-ASP-ASP-SER-ASP-GLU-GLU-ASN controls DNA transcription in vitro by RNA polymerase II. 822 8

We have developed a simple method to purify sequence-specific DNA-binding proteins directly from crude cell extracts by using DNA affinity latex beads. The method enabled us to purify not only DNA-binding proteins, but also their associated proteins. Using beads bearing the ATF/E4TF3 site from the adenovirus E4 gene promoter, a protein kinase activity was copurified with the ATF/E4TF3 family. We found that the kinase interacted with ATF1 in vitro efficiently. The kinase did not bind directly to DNA. The kinase mainly phosphorylated ATF1 on serine 36, which was one of target amino acids for casein kinase (CK) II. Biological features of the kinase were the same as those of CKII and an anti-CKII serum reacted with the kinase, indicating that the kinase was CKII. Moreover, it was clearly shown that one of CKII subunits, the CKII alpha protein bound to glutathione-S-transferase (GST) fusion ATF1 but not GST in vitro. It has been reported that a specific CKII inhibitor, 5,6-dichloro-1-beta-D-ribo-furanosylbenzimidazole (DRB) inhibits transcription by RNA polymerase II [Zandomeni et al., (1986) J. Biol. Chem. 261, 3414-3419]. Taken together, these results suggest that ATF/E4TF3 may recruit the CKII activity to a transcription initiation machinery and stimulate transcription.
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PMID:Copurification of casein kinase II with transcription factor ATF/E4TF3. 860 Apr 55

Overlapping cDNA clones encoding the two largest subunits of rat RNA polymerase I, designated A194 and A127, were isolated from a Reuber hepatoma cDNA library. Analyses of the deduced amino acid sequences revealed that A194 and A127 are the homologues of yeast A190 and A135 and have homology to the beta' and beta subunits of Escherichia coli RNA polymerase I. Antibodies raised against the recombinant A194 and A127 proteins recognized single proteins of approximately 190 and 120 kDa on Western blots of total cellular proteins of mammalian origin. N1S1 cell lines expressing recombinant His-tagged A194 and FLAG-tagged A127 proteins were isolated. These proteins were incorporated into functional RNA polymerase I complexes, and active enzyme, containing FLAG-tagged A127, could be immunopurified to approximately 80% homogeneity in a single chromatographic step over an anti-FLAG affinity column. Immunoprecipitation of A194 from 32P metabolically labeled cells with anti-A194 antiserum demonstrated that this subunit is a phosphoprotein. Incubation of the FLAG affinity-purified RNA polymerase I complex with [gamma-32P]ATP resulted in autophosphorylation of the A194 subunit of RPI, indicating the presence of associated kinase(s). One of these kinases was demonstrated to be CK2, a serine/threonine protein kinase implicated in the regulation of cell growth and proliferation.
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PMID:Affinity purification of mammalian RNA polymerase I. Identification of an associated kinase. 942 95

E. Coli RNA polymerase was phosphorylated with protein kinase CKII and allowed to bind to pBR322. After digestion of the RNA polymerase-pBR322 complex with proteinase K, the phosphopeptides that remained bound to DNA were extracted and analyzed. These phosphopeptides are able to bind again to DNA and to inhibit transcription.
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PMID:Phosphopeptides derived from in vitro phosphorylated E. coli RNA polymerase bind to DNA and affect DNA transcription. 954 25

Protein kinase CK2 is a ubiquitous Ser/Thr kinase which phosphorylates a large number of proteins including several transcription factors. Recombinant Xenopus laevis CK2 phosphorylates both recombinant Saccharomyces cerevisiae and Schizosaccharomyces pombe TATA binding protein (TBP). The phosphorylation of TBP by CK2 reduces its binding activity to the TATA box. CK2 copurifies with the transcription factor IID (TFIID) complex from HeLa cell extracts and phosphorylates several of the TBP-associated factors within TFIID. Taken together these findings argue for a role of CK2 in the control of transcription by RNA polymerase II through the modulation of the binding activity of TBP to the TATA box.
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PMID:Phosphorylation of yeast TBP by protein kinase CK2 reduces its specific binding to DNA. 1002 43

BTF3, initially discovered as a factor required for transcription inititation of RNA polymerase II, is expressed in two isoforms, termed a and b. BTF3b, the transcriptionally inactive isoform, was identified as an interaction partner of protein kinase CK2 subunit beta employing the interaction trap system for screening ofa HeLa cDNA fusion library. We report here on the interaction between the other isoform, BTF3a, and protein kinase CK2. The complete cDNA of BTF3a was cloned by RT-PCR and used for analysis in the two-hybrid system with a three-reporter yeast strain. Interaction of BTF3a with CK2 subunits alpha, alpha' or beta was detectable by one of three reporters, whereas the CK2beta - BTF3a interaction was activating two reporters. It was also shown that BTF3a is phosphorylated in vitro by the alpha2beta2 holoenzyme, but not by alpha or alpha' alone, indicating the requirement of beta for substrate recognition. Immunoprecipitations of GST-fused BTF3a carried out in vitro resulted in co-precipitation of beta. Similarly, GST-BTF3a, but not GST alone isolated with glutathione agarose beads from buffer containing recombinant CK2 subunits was found complexed with alpha and beta, likely representing alpha2beta2 holoenzyme. The data show a weak, nevertheless specific interaction of protein kinase CK2 via subunit beta with the putative transcription factor BTF3a in vitro and in vivo, and a role of BTF3a as a potential new substrate for CK2.
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PMID:BTF3 is a potential new substrate of protein kinase CK2. 1009

We have investigated the molecular basis of the requirement for protein kinase CK2 in nuclear transcription in Saccharomyces cerevisiae. In vivo and in vitro analysis has demonstrated that CK2 is required for efficient transcription of the tRNA and 55 rRNA genes by RNA polymerase III. This suggests that a component of the pol III transcription machinery is regulated by CK2. We tested this possibility by a biochemical complementation approach in which components of the pol III transcription machinery from wild type cells were tested for their ability to rescue transcription in extract from a conditionally CK2-deficient mutant. We found that pol III transcription initiation factor IIIB (TFIIIB) fully restores transcription in CK2-deficient extract. Further in vitro studies revealed that TFIIIB must be phosphorylated to be active, that a single subunit of wild type TFIIIB, the TATA binding protein (TBP), is efficiently phosphorylated by CK2, and that recombinant TBP and a limiting amount of CK2 rescues transcription in CK2-deficient extract. We conclude that TBP is the physiological target of CK2 among the components of the pol III transcription machinery. The implications of this result are discussed in the context of previous data concerning the regulation of TFIIIB.
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PMID:A review of progress towards elucidating the role of protein kinase CK2 in polymerase III transcription: regulation of the TATA binding protein. 1009 3

In a previous report, we documented that a major portion of the nuclear protein kinase CK2alpha (CK2alpha) subunit does not form heterooligomeric structures with the beta subunit, but it binds tightly to nuclear structures in an epithelial Chironomus cell line. We report here that the CK2alpha, but not beta, subunit is co-localized with productively transcribing RNA polymerase II (pol II) on polytene chromosomes of Chironomus salivary gland cells. Likewise, the RAP74 subunit ofTFIIF, a potential substrate for CK2, is co-localized with pol II. The occupancies of chromosomes with the CK2alpha and RAP74 subunits are sensitive to DRB, an inhibitor of pol II-based transcription and the activity of CK2 and pol II carboxyl-terminal kinases. DRB alters the chromosomal distribution of the CK2alpha and RAP74 subunits: there is a time-dependent clearance from the chromosomes of CK2alpha and RAP74 subunits, which coincides in time the completion and release of preinitiated transcripts after addition of DRB. The results suggest that both the CK2alpha and RAP74 subunits travel with the elongating pol II molecules along the DNA template during the entire transcription cycle. No detectable re-association of CK2alpha and RAP74 with the promoters takes, however, place after the completion of the preinitiated transcripts in the presence of DRB. In contrast, the binding of hypophosporylated pol II and TFIIH to the active gene loci is not abolished by the DRB regimen. Our data are consistent with the possibility that in living Chironomus salivary gland cells, DRB interferes with the recruitment of TFIIF, but not of TFIIH, to the promoter by interference with the activity of the CK2alpha subunit enzyme and phosphorylation of RAP74 and thereby DRB blocks transcription initiation.
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PMID:The binding of the alpha subunit of protein kinase CK2 and RAP74 subunit of TFIIF to protein-coding genes in living cells is DRB sensitive. 1009 4

Most modern chemo- and radiotherapy treatments of human cancers use the DNA damage pathway, which induces a p53 response leading to either G1 arrest or apoptosis. However, such treatments can induce mutations and translocations leading to secondary malignancies or recurrent disease, which often have a poor prognosis because of resistance to therapy. Here we report that 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB), an inhibitor of CDK7 TFIIH-associated kinase, CKI and CKII kinases, blocking RNA polymerase II in the early elongation stage, triggers p53-dependent apoptosis in human colon adenocarcinoma cells in a transcription independent manner. The fact that DRB kills tumour-derived cells without employment of DNA damage gives rise to the possibility of the development of a new alternative chemotherapeutic treatment of tumours expressing wild type p53, with a decreased risk of therapy-related, secondary malignancies.
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PMID:RNA synthesis block by 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB) triggers p53-dependent apoptosis in human colon carcinoma cells. 1052 57

Total protein extract from HL-60 cells was found to be able to dephosphorylate the RNA polymerase II octapeptide pyroGlu-Asp-Asp-Ser-Asp-Glu-Glu-Asn previously phosphorylated with protein kinase CKII (pCKII). Fractionation in cytoplasm, nuclear and chromatin extracts shows the phosphatase activity to be localized only in the nucleus, but not to be bound to the chromatin.
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PMID:Identification of a phosphatase activity, toward the phosphopeptide pyroGlu-Asp-Asp-Ser(p)-Asp-Glu-Glu-Asn, in nuclear extract from HL-60 promyelocitic leukaemia cells. 1097 45

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