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 nucleotide sequences of the genes encoding tRNA(Pro)(UGG) and tRNA(Thr)(GGU) from the extremely thermophilic archaeon (archaebacterium) Thermococcus celer have been determined. A consensus promoter model was deduced from the comparison of the upstream regions of several stable RNA genes with S1-mapped promoter regions of genes coding for ribosomal proteins and DNA-dependent RNA polymerase components.
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PMID:Nucleotide sequence of the genes encoding proline tRNA(UGG) and threonine tRNA(GGU) and consensus promoter model of Thermococcus celer. 791 30

The largest subunit of RNA polymerase (RNAP) II contains at it C-terminus an unusual domain comprising tandem repeats of the consensus sequence Tyr-Ser-Pro-Thr-Ser-Pro-Ser. This C-terminal domain (CTD) can undergo phosphorylation at multiple sites giving rise to a form of the enzyme designated RNAP IIO. The unphosphorylated form is designated RNAP IIA. The largest subunits of RNAPs IIO and IIA are designated IIo and IIa, respectively. In quiescent NIH 3T3 fibroblasts, subunits IIo and IIa are present in comparable amounts. Upon serum stimulation, the amount of subunit IIo increases markedly and remains elevated for several hours. The increase of subunit IIo also occurs in transcription-inhibited cells and, therefore, is not a consequence of serum-activated transcription. This observation suggests that serum stimulation activates a CTD kinase and/or inhibits a CTD phosphatase. This hypothesis is supported by the finding that serum stimulates phosphorylation of a beta-galactosidase-CTD fusion protein expressed in these cells. Furthermore, an enhanced CTD kinase activity was discovered in lysates from serum-stimulated fibroblasts and was found to copurify with MAP kinases on a Mono Q column and to bind to anti-MAP kinase antibodies. The idea that MAP kinases phosphorylate the CTD in vivo is supported by the observation that subunit IIa, but not subunit IIb which lacks the CTD, is phosphorylated at multiple sites by purified MAP kinase. Consequently, the MAP kinases are a new class of CTD kinases which appear to be involved in the phosphorylation of RNAP II following serum stimulation. This phosphorylation may contribute to the transcriptional activation of serum-stimulated genes.
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PMID:Enhanced phosphorylation of the C-terminal domain of RNA polymerase II upon serum stimulation of quiescent cells: possible involvement of MAP kinases. 795 47

The vaccinia virus D6R open reading frame encodes the small subunit of the heterodimeric vaccinia virus early transcription factor (VETF) that activates transcription of early genes in vitro. VETF binds early gene promoters and has a DNA-dependent ATPase activity that is essential for activation of transcription. To examine the relationship between the structure and function of VETF, we have localized the mutations in two temperature-sensitive viruses whose lesions previously were mapped to the D6R gene. For both mutants, a single G-to-A nucleotide change that would alter protein coding potential was identified. In mutant E93, the codon for alanine 25 was changed to that of threonine, and in mutant S4 the codon for valine 278 was replaced with that for methionine. The molecular phenotype of each mutant was assessed by expressing mutant transcription factors in HeLa cells by using a vaccinia virus-T7 system and characterizing the proteins' activities in vitro. The A25T mutant activated transcription to a lesser extent than wild-type VETF, and the V278M mutant had no demonstrable transcription factor activity. Both mutant proteins were shown to be defective for promoter binding, accounting for their impairment in transcription activation. The functional defects for both mutants were observed at permissive as well as nonpermissive temperatures. The mutant proteins retained ATPase activity but required higher DNA concentrations to activate the ATPase. These results indicate that the small subunit of VETF is essential for its promoter binding activity and likely contacts the promoter DNA. Immunoblotting experiments showed that the virion particles from the two mutant viruses contained about half the VETF of wild-type virus, suggesting that promoter binding may contribute to packaging of VETF into the virion particle. RNA polymerase, mRNA capping enzyme, and nucleoside triphosphate phosphohydrolase I were found at similarly reduced levels in the virion, indicating that packaging of some virion core enzymes may be interdependent.
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PMID:Temperature-sensitive mutations in the gene encoding the small subunit of the vaccinia virus early transcription factor impair promoter binding, transcription activation, and packaging of multiple virion components. 813 39

The largest subunit of RNA polymerase II (RNAP II) contains a remarkable region of tandem heptapeptide repeats of the consensus sequence Tyr-Ser-Pro-Thr-Ser-Pro-Ser at its carboxyl terminus. This COOH-terminal domain (CTD) is unphosphorylated in RNAP IIA, extensively phosphorylated in RNAP IIO, and absent in RNAP IIB. The reversible phosphorylation of the CTD has been proposed to be integral to each cycle of transcription from the adenovirus-2 major late promoter. The adenovirus-2 major late promoter, however, may not be a good paradigm for the study of CTD function because in vitro transcription from this promoter is not dependent on the CTD. Previous studies suggest that transcription from the murine dihydrofolate reductase (DHFR) promoter requires the CTD. In an effort to investigate the role of the CTD and its phosphorylation, a RNAP II-dependent reconstituted transcription system specific for the DHFR promoter was established. In this reconstituted system, RNAP IIA, but not RNAP IIB, can transcribe from the DHFR promoter. Furthermore, RNAP IIB does not compete with RNAP IIA for preinitiation complex assembly. These results suggest that the CTD plays a critical role in the recruitment of RNAP II to the DHFR promoter. The analysis of preinitiation complexes assembled on the DHFR promoter indicates that RNAP IIA readily assembles into functional preinitiation complexes in contrast to the inefficient assembly of RNAP IIO. However, transcript elongation is catalyzed by RNAP IIO as demonstrated by the photoactivated cross-linking of nascent DHFR transcripts to subunit IIo. These results indicate that transcription from the DHFR promoter involves the reversible phosphorylation of the CTD and support the idea that RNAPs IIA and IIO have essential but distinct functions.
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PMID:RNA polymerases IIA and IIO have distinct roles during transcription from the TATA-less murine dihydrofolate reductase promoter. 822 67

Plasmodium species possess developmentally regulated ribosomal RNA (rRNA) genes. This report describes the expression and gene structure of the largest subunit of P. falciparum RNA polymerase I (RNAPI), which is responsible for the synthesis of rRNA. The RNAPI largest subunit gene was present as a single copy gene on chromosome 9. Three exons encode the 2910-amino acid RNAPI polypeptide (340 140 Da). A comparison of Plasmodium, Trypanosoma, and Saccharomyces cerevisiae nuclear RNAP largest subunits identified conserved amino acid positions and class-specific amino acid positions. Novel amino acid insertions were found between RNAPI conserved regions A and B (region A'), D and DE1 (region D'), DE2 and E (region DE2'), and F and G (region F'). Leucine zipper domains were found within regions D', DE2, and DE2'. A novel serine-rich repeat domain, a domain with homology to the C-terminal domain of eukaryotic upstream binding factor (UBF), and 4 highly conserved casein kinase II (CKII) Ser/Thr phosphorylation motifs were found within a 127-amino acid sub-region of enlarged region F'. The novel RNAPI serine-rich repeat contained a conserved motif, Ser-X3-Ser, which was also identified in the serine-rich repeat domains of the P. falciparum RNAPII and RNAPIII largest subunits, as well as within a highly homologous serine-rich repeat from trophozoite antigen R45. The results of this molecular analysis indicate that phosphorylation and dephosphorylation mechanisms regulate the activity of P. falciparum RNAPI.
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PMID:Molecular characterization of the largest subunit of Plasmodium falciparum RNA polymerase I. 825 31

The carboxy-terminal domain (CTD) of RNA polymerase II consists of multiple repeats of the unique heptad sequence -(Ser-Pro-Thr-Ser-Pro-Ser-Tyr)- which may interact with DNA through the intercalation of adjacent tyrosine aromatic rings. We have examined details of the interaction of this motif with calf thymus DNA through analysis of peptide analogues that contain (1) an amino-terminal tyrosine which mimics the presence of an adjacent heptad repeat and (2) positively-charged lysine residues which facilitate the initial contact between peptide and DNA. Results of fluorescence experiments, NMR titrations, and viscometric analyses indicate that these peptides bind to the DNA helix through a non-classical intercalation mode involving partial aromatic stacking of the tyrosine rings with the Watson-Crick base pairs.
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PMID:Aromatic stacking and bending of the DNA helix by the individual repeat units of the carboxy-terminal domain of RNA polymerase II. 829 83

An expression system for alpha 1-antitrypsin in Escherichia coli was developed using a T7 RNA polymerase promoter. Addition of rifampicin to inhibit the E. coli RNA polymerase after induction of the T7 RNA polymerase gene resulted in about 30% of newly synthesized protein being alpha 1-antitrypsin. This expression system was then used to examine the effect of mutations in the hinge region of alpha 1-antitrypsin on its activity. The mutations were based on ones in antithrombin III that had previously been shown to have adverse effects on activity. Mutation of Ala347 to threonine in alpha 1-antitrypsin did not affect the kinetic behavior of the protein with trypsin or human leukocyte elastase. In contrast, mutation of Gly349 to proline converted the majority of the protein into a substrate for both proteinases. The small fraction of this mutant that was active, however, had kinetic parameters that were indistinguishable from wild-type alpha 1-antitrypsin. Cleavage within the reactive-site loop of wild-type alpha 1-antitrypsin causes a conformational change in the molecules (the S-to-R transition) and results in a marked increase in heat stability. This increase in heat stability was also seen upon cleavage within the reactive-site loops of both of the alpha 1-antitrypsin mutants. The results are discussed in terms of a kinetic mechanism for serpin-proteinase interactions, in which after the formation of an initial complex the serpin partitions between the formation of a stable complex and a cleavage reaction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of mutations in the hinge region of serpins. 834 75

A cDNA coding for the beta 4 subunit of murine integrin (m beta 4) has been cloned and sequenced using mRNA from a murine lung carcinoma as the template. The 5' sequence contains two AUG codons, the second of which initiates synthesis of the mature protein. The cDNA sequence has an open reading frame coding for 1748 amino acids (aa), including a signal peptide, cysteine-rich region, serine- and threonine-rich region, transmembrane domain, and a cytoplasmic domain of over 1000 aa. Overall, the deduced m beta 4 aa sequence has 88% identity with the human beta 4 subunit (h beta 4) sequence deduced from the sequence of placental mRNA. Reverse transcriptase-polymerase chain reaction using primers flanking splice sites for two variant forms of h beta 4 transcripts provided evidence for alternate splicing of RNA in the murine spleen and to a lesser extent in the skin, uterus, and thymus but was found at only one of the two alternative sites. Five potential glycosylation sites present in the extracellular domain of h beta 4 are conserved in m beta 4. One tyrosine in the terminal region of the cytoplasmic domain (position 1600) is conserved between m beta 4 and h beta 4 and has the consensus sequence for tyrosine phosphorylation. Finally, a genomic restriction map of m beta 4 shows that the gene is about 40 kb in length. No restriction-fragment length polymorphisms were detected between BALB/c liver and BALB/c lung carcinoma DNA.
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PMID:Sequence of a cDNA encoding the beta 4 subunit of murine integrin. 835 87

RNA polymerase II is a multisubunit enzyme composed of two large subunits of molecular weight in excess of 100,000 and a collection of 8-10 smaller subunits. The largest subunit, designated IIa, contains at its carboxyl terminus a highly repetitive domain consisting of tandem repeats of the consensus sequence Tyr-Ser-Pro-Thr-Ser-Pro-Ser. Extensive phosphorylation within this COOH-terminal domain (CTD) gives rise to subunit IIo which has a markedly reduced mobility in SDS-polyacrylamide gel electrophoresis (PAGE) relative to subunit IIa. Recent evidence suggests that RNA polymerase IIA, containing an unphosphorylated CTD, is involved in preinitiation complex assembly, whereas RNA polymerase IIO is involved in elongation. Consequently, CTD phosphorylation is thought to occur after RNA polymerase II has bound to the promoter by a protein kinase that stably associates with the preinitiation complex. We present here the partial purification and characterization of two distinct CTD kinases from a HeLa cell transcription extract. These CTD kinases, designated CTDK1 and CTDK2, are fractionated by chromatography on Mono Q. CTDK1 catalyzes the incorporation of approximately 33 pmol of phosphate/pmol of calf thymus RNA polymerase subunit IIa, almost exclusively on serine. CTDK2 catalyzes the incorporation of approximately 50 pmol of phosphate/pmol of calf thymus subunit IIa, predominantly on serine; appreciable phosphate transfer onto threonine is also observed. Phosphorylation by CTDK2, but not CTDK1, results in a complete mobility shift in SDS-PAGE of subunit IIa to the position of IIo. CTDK1 can utilize ATP, dATP, or GTP as phosphate donor, whereas CTDK2 can utilize only ATP or dATP. The apparent Km for ATP is 30 microM for CTDK1 and 60 microM for CTDK2. CTDK1 and CTDK2 also differ in their protein substrate specificity. CTDK1 phosphorylates casein whereas CTDK2 does not. Neither kinase phosphorylates phosvitin or histone H1 to an appreciable extent. CTDK1 and CTDK2 do not appear to be related to cdc2 kinases as determined by their inability to phosphorylate H1 and their failure to react with antibodies directed against the cdc2 kinase. These results establish that a partially fractionated HeLa transcription extract contains two distinct CTD kinases that differ in their nucleotide requirements and in their patterns of CTD phosphorylation.
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PMID:Partial purification and characterization of two distinct protein kinases that differentially phosphorylate the carboxyl-terminal domain of RNA polymerase subunit IIa. 841 77

The in vitro studies of three T7 RNA polymerase point mutants suggest that substitutions of Ala and Thr for Pro-563 and of Ser for Tyr-571 have little effect on the enzyme catalytic competence, but result in its inability to utilize the promoter. Both P563A and P563T mutants retain the promoter-binding ability, whereas the promoter affinity of the Y571S mutant drops drastically.
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PMID:Tyr-571 is involved in the T7 RNA polymerase binding to its promoter. 846 83

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