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 largest subunit of eukaryotic RNA polymerase II (RNAP II) has a serine- and threonine-rich C-terminal domain (CTD) that may interact both with DNA and with the activating region of transcription factors. It has been proposed, in one model, that a protein kinase phosphorylates the promoter-associated CTD, facilitating the transition between promoter-binding and RNA-elongating forms of RNAP II. An immobilized template transcription system was used to test the predictions of this model directly. A protein kinase that phosphorylated the CTD at multiple sites was detected. This activity was tightly bound to the template, as evidenced by continued association after multiple rounds of washing. Phosphorylation was promoter sequence-dependent and exhibited the same nucleotide substrate specificity as the previously characterized ATP-requiring step in initiation. It was necessary for [gamma-32P]ATP and initiating rNTPs to be present simultaneously in the reaction in order to efficiently chase-radiolabel into elongating RNAP II-containing complexes, consistent with the idea that initiation and phosphorylation are temporally associated reactions.
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PMID:Promoter-dependent phosphorylation of RNA polymerase II by a template-bound kinase. Association with transcriptional initiation. 170 70

The largest subunit of eukaryotic RNA polymerase II contains a carboxyl-terminal domain (CTD) which is comprised of repetitive heptapeptides with a consensus sequence Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7. We demonstrate here that the mouse CTD expressed in and purified from Escherichia coli can be phosphorylated in vitro by a p34cdc2/CDC28-containing CTD kinase from mouse ascites tumor cells. The product of this reaction, a phosphorylated form of the CTD, contains phosphoserine and phosphothreonine, but not phosphotyrosine. The same phosphoamino acid content is observed in the in vivo phosphorylated CTD from a mouse cell line. Synthetic peptides with naturally occurring non-consensus heptapeptide sequences can also be phosphorylated by CTD kinase in vitro. Phosphoamino acid analysis of these non-consensus heptapeptides together with direct sequencing of a phosphorylated heptapeptide reveals that serines (or threonines) at positions two and five are the sites phosphorylated by mouse CTD kinase. Thus, the -Ser(Thr)-Pro- motif common to p34cdc2/CDC28-containing protein kinases is the recognition site for mouse CTD kinase.
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PMID:Identification of phosphorylation sites in the repetitive carboxyl-terminal domain of the mouse RNA polymerase II largest subunit. 189 39

Synthetic peptides have been used to define the consensus amino acid sequence for substrate recognition by the meiosis-activated myelin basic protein (MBP) kinase (p44mpk), which was purified from maturing sea star oocytes. This protein kinase shares many properties with the mitogen-activated microtubule-associated protein-2 kinase (p42mapk) in vertebrates. Recently, Thr-97 in the tryptic fragment KNIVTPRTPPPSQGK of bovine MBP was identified as the major site of phosphorylation by p44mpk (Sanghera, J. S., Aebersold, R., Morrison, H. D., Bures, E. J., and Pelech, S. L. (1990) FEBS Lett. 273, 223-226). Synthetic peptides modeled after this sequence revealed that the presence of a proline residue C-terminal (+1 position) to the phosphorylatable threonine (or serine) residue was critical for recognition by p44mpk. Although not essential, a proline residue located at the -2 position enhanced the Vmax of peptide phosphorylation. Basic, acidic, and non-polar residues were equally tolerated at the -1 position. The presence of an amino acid residue at position -3 also increased peptide phosphorylation. Thus, the optimum consensus sequence for phosphorylation by p44mpk was defined as Pro-X-(Ser/Thr)-Pro, where X is a variable amino acid residue, but ideally not a Pro. Peptides that included this sequence were phosphorylated by p44mpk with Vmax values approaching 1 mumol.min-1.mg-1 and with apparent Km values of approximately 1 mM). Pseudosubstrate peptides in which the phosphorylatable residue was replaced by valine or alanine were weak inhibitors of p44mpk (apparent Ki values of approximately 3 mM). Over 40 distinct protein kinases contain Pro-X-(Ser/Thr)-Pro sequences including the human receptors for insulin and epidermal growth factor, and kinases encoded by the human proto-oncogenes abl, neu, and raf-1, and Schizosaccharomyces pombe cell cycle control genes ran-1 and wee-1. Multiple putative sites were also identified in rat microtubule-associated protein-2, human retinoblastoma protein, human tau protein, and Drosophila myb protein and RNA polymerase II.
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PMID:Definition of a consensus sequence for peptide substrate recognition by p44mpk, the meiosis-activated myelin basic protein kinase. 190 71

The cellular isoform of the prion protein (PrPC) is a sialoglycoprotein bound almost exclusively on the external surface of the plasma membrane by a glycosyl phosphatidylinositol anchor. The deduced amino acid sequence of Syrian hamster PrPC identifies two potential sites for the addition of Asn-linked carbohydrates at amino acids 181-183 (Asn-Ile-Thr) and 197-199 (Asn-Phe-Thr). We have altered these sites by replacing the threonine residues with alanine and expressed the mutant proteins transiently in CV1 cells utilizing a mutagenesis vector with the T7 promoter located upstream from the PrP gene. The T7 RNA polymerase was supplied by infection with a recombinant vaccinia virus. The 3 mutant proteins (PrPAla183, PrPAla199 and PrPAla183/199) have a reduced relative molecular weight compared to wild-type (wt) PrP. Deglycosylation as well as synthesis in the presence of tunicamycin reduced the relative molecular weight of all the PrP species to that of the double mutant PrPAla183/199. Our results indicate that both single-site mutant prion proteins are glycosylated at non-mutated sites and they suggest that both potential sites for Asn-linked glycosylation are utilized in wt PrPC. Immunofluorescence studies demonstrate that while wt PrPC localizes to the cell surface, all the mutant PrP molecules accumulate intracellularly. The site of accumulation of PrPAla183 is probably prior to the mid-Golgi stack since this protein does not acquire resistance to endoglycosidase H. Whether the intracellular locations of the mutant PrPC species are the same as those identified for the scrapie isoform of the prion protein (PrPSc) remains to be established.
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PMID:Intracellular accumulation of the cellular prion protein after mutagenesis of its Asn-linked glycosylation sites. 198 82

The carboxyl-terminal domain (CTD) of the largest subunit of eukaryotic RNA polymerase II can be phosphorylated by a p34cdc2/CDC28-containing CTD kinase. Phosphorylated serine (or threonine) is located at positions 2 and 5 in the repetitive heptapeptide consensus sequence Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7. We show here that phosphorylation of the mouse CTD retards its electrophoretic mobility in sodium dodecyl sulfate-polyacrylamide gels in a way similar to that observed for the II0 form of the largest subunit of RNA polymerase II phosphorylated in vivo. At the maximum level of phosphorylation by CTD kinase in vitro, there are 15-20 phosphates evenly distributed among the 52 heptapeptide repeats that comprise the mouse CTD. Gel filtration chromatography and sucrose gradient ultracentrifugation analyses indicate that phosphorylation induces a dramatic conformational change in the CTD with the phosphorylated form adopting a far more extended structure than the unphosphorylated CTD.
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PMID:Phosphorylation causes a conformational change in the carboxyl-terminal domain of the mouse RNA polymerase II largest subunit. 198 83

The recognition of promoter region -10 nucleotide sequences in prokaryotes is believed to be mediated by a segment of alpha-helix in a region of RNA polymerase sigma factors called 2.4. Earlier genetic studies implicated Thr-100 in region 2.4 of the Bacillus subtilis sigma factor sigma H in the recognition of the G.C base pair at position -13 in the -10 region (GAAT) of a cognate promoter. In confirmation of this assignment, we now show that a change-of-specificity mutant of sigma H in which Thr-100 was replaced with isoleucine suppresses a G.C----A.T nucleotide substitution at position -13 but not other "promoter down mutations" (causing impaired promoter activity) at positions -13, -12, and -11. We also show that a loss-of-contact mutant created by the replacement of Thr-100 with alanine (having a short side chain) enables sigma H to tolerate three different promoter down mutations at position -13 but not down mutations at other positions. Finally, we suggest the identification of an additional amino acid involved in base-pair recognition by the demonstration that the replacement of Arg-96 with alanine specifically suppresses an A.T----G.C promoter down mutation at position -12. The identification of amino acids that are four residues apart that are involved in the recognition of adjacent base pairs may fix the orientation of region 2.4 (its NH2 terminus being proximal to the promoter transcription start site) and is consistent with a model in which the recognition of promoter region -10 nucleotide sequences is mediated by an alpha-helix in which residues involved in base-pair contact are separated by one turn and clustered on one face of the helix.
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PMID:Two amino acids in an RNA polymerase sigma factor involved in the recognition of adjacent base pairs in the -10 region of a cognate promoter. 212 53

Seven proteins each contain 8 to 52 tandem repeats of a unique class of oligopeptide. The consensus peptide for each is rhodopsin Tyr Pro Pro Gln Gly synaptophysin Tyr Gly Pro Gln Gly synexin Tyr Pro Pro Pro Pro Gly gliadin Tyr Pro Pro Pro Gln Pro RNA polymerase II Tyr Ser Pro Thr Ser Pro Ser hordein Phe Pro Gln Gln Pro Gln Gln Pro gluten Tyr Pro Thr Ser Pro Gln Gln Gly Tyr Although there is obvious variation of sequence and of length, the penta- to nonapeptides share an initial Tyr (or Phe) and have high Pro contents and abundant Gly, Gln, and Ser. We have evaluated helical models that both recognize the uniqueness of these sequence repeats and accommodate variations on the basic theme. We have developed a group of related helical models for these proteins with about three oligopeptide repeats per turn of 10-20 A. These models share several common features: Most of the phi dihedral angles are -54 degrees, to accommodate Pro at all positions except the first (Tyr). Except for the beta-turns, most psi dihedral angles are near +140 degrees as found in polyproline. Each oligopeptide has at least one beta-turn; several have two. Some contain a cis-Tyr, Pro peptide bond; a few have a cis-bond plus one beta-turn. Tyr side chains vary from totally exposed to buried within the helices and could move to accommodate either external hydrophobic interactions or phosphorylation. The several related structures seem to be readily interconverted without major change in the overall helical parameters, and therein may lie the key to their functions.
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PMID:Polyproline, beta-turn helices. Novel secondary structures proposed for the tandem repeats within rhodopsin, synaptophysin, synexin, gliadin, RNA polymerase II, hordein, and gluten. 213 24

Spinach chloroplast RNA polymerase has been shown to efficiently terminate transcription at the threonine attenuator (thra) from Escherichia coli. In this study, efficient transcription termination by the chloroplast RNA polymerase was observed at a second prokaryotic terminator, the histidine attenuator (hisa) from Salmonella typhimurium. Termination occurred regardless of the orientation of either attenuator. In higher-plant chloroplast DNA, the genes for the beta subunit of the ATPase (atpB) and the large subunit of ribulose 1,5-bisphosphate carboxylase/oxygenase (rbcL) are adjacent and divergently transcribed. Bidirectional transcription vectors, containing the histidine and threonine terminators, were constructed to analyze the divergently oriented atpB and rbcL promotors. One plasmid construction, pRTT7, contained two tandem copies of the threonine attenuator (pRTT7). Two additional constructs, pRHT1 and pRHT2, each contained oppositely oriented copies of thra and hisa. A DNA fragment containing the rbcL and atpB promoters was inserted between the two terminators present in the pRTT7, pRHT1, and pRHT2 plasmids. Transcription of these recombinant DNAs by spinach chloroplast RNA polymerase resulted in discretely sized rbcL and atpB transcripts. In addition, these bidirectional transcription vectors were used to identify previously uncharacterized chloroplast promoters.
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PMID:Analysis of chloroplast promoters using bidirectional transcription vectors. 215 32

A TANDEM repeat of the sequence Ser-Pro-Thr-Ser-Pro-Ser-Tyr has been found at the C terminus in the largest subunit of RNA polymerase II (refs 1-5) with, for example, 26 units in yeast and 52 in mammals. By removal of this 'tail', it has been shown that 11-23 units are necessary for the normal functioning of the polymerase. The functional role of the repeat is however, unclear, although it has been proposed that it binds to transcription factors. As discussed in an earlier paper, the repeat unit contains two Ser-Pro sequences which seem to be related to a DNA-binding unit found in histones, Ser-Pro-Lys-Lys, and to the Ser-Pro-X-X motif which is often found in gene regulatory proteins and which, it has been proposed, is also a DNA-binding unit. Here, I show that the repeat does indeed bind DNA and present evidence that it does so by the intercalation of tyrosine residues. These experiments involved synthetic peptides containing one or two repeat units. As the sequence Ser-Pro-X-X (where X represents any amino acid) has a strong tendency to assume a special beta-turn, a model of the unit composed of two such beta-turns was made and compared with the structure of the drug Triostin A which is known to intercalate into DNA. Two tyrosine side chains of the repeat overlap well with two quinoxaline rings of the drug and therefore, the model can provide a good explanation of the experimental results.
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PMID:The heptad repeat in the largest subunit of RNA polymerase II binds by intercalating into DNA. 218 21

Bacteriophage T7 expresses a serine/threonine-specific, cAMP-independent protein kinase activity encoded by the early gene 0.7. The phosphoproteins specifically resulting from gp0.7 protein kinase expression in T7-infected Escherichia coli have been examined by one-dimensional, SDS-polyacrylamide gel electrophoresis. Only seven major, stable phosphoproteins dependent on gp0.7 protein kinase expression are observed. Two of the gp0.7 protein kinase-specific phosphoproteins observed have been previously identified: the beta' subunit of RNA polymerase and the RNA processing enzyme RNase III. The gp0.7-catalyzed protein phosphorylation activity appears at 9-11 min postinfection at 30 degrees. The new phosphoproteins have a metabolic stability comparable to that of uninfected cell phosphoproteins. T7 protein kinase expression causes the phosphorylation of the same, limited set of proteins in B, C, or K strains of E. coli. Expression of the T3 and BA14 phage protein kinase activities also produces the same phosphoproteins.
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PMID:Protein kinase of bacteriophage T7 induces the phosphorylation of only a small number of proteins in the infected cell. 218 69

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