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)

At least six chromatographically resolvable general transcription factors may participate in accurate initiation by RNA polymerase II in HeLa cell-derived systems. TFIIF (also termed FC, RAP30/74 and beta/gamma) can bind directly to RNA polymerase II in solution and decrease the affinity of RNA polymerase II for nonspecific DNA. From studies on the kinetics of transcription initiation, on the composition of transcription initiation complexes fractionated by acrylamide gel electrophoresis, and on template competition experiments, TFIIF is known to act at an intermediate stage in initiation complex formation. It acts after TFIID firmly associates with DNA, but coincidentally with or immediately after RNA polymerase II binding to DNA, and before the recruitment of factor TFIIE. TFIIF may or may not have DNA helicase activity. The small subunit (RAP30) of TFIIF has been cloned and shows some amino-acid sequence homology to bacterial sigma factors. We have partially sequenced the RAP74 protein from purified HeLa cells, cloned its complementary DNA and shown that its translation product can interact with RAP30 in vitro as well as in vivo. The cDNA predicts an amino-acid sequence that lacks obvious DNA or RNA helicase motifs. It has regions rich in charged amino acids, including segments containing a higher content of acidic amino acids than are found in strong transcriptional activators such as VP16.
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PMID:Characterization of cDNA for the large subunit of the transcription initiation factor TFIIF. 173 83

The San Miguel sea lion viruses (SMSV) and vesicular exanthema of swine viruses (VESV) are related morphologically and antigenically, but little has been done to determine their genotypic relationship to each other and to other caliciviruses. To examine this relationship, reverse transcriptase PCRs were performed by using oligonucleotide primer sets designed to amplify portions of the 2C RNA helicase-like and RNA-dependent RNA polymerase regions with total cellular RNA purified from virus-infected cell cultures as a template. The 2C RNA helicase primers directed the amplification of this region from eight SMSV serotypes, five VESV serotypes, and four related viruses. The RNA polymerase primer sets amplified products from all these viruses except one. Phylogenetic comparison of the caliciviruses demonstrated that SMSV, VESV, and four related viruses are closely related while being distinct from feline calicivirus, the human caliciviruses (small, round-structured viruses), and rabbit hemorrhagic disease virus and that they should be classified as a single genotype within the Caliciviridae.
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PMID:Genetic relatedness of the caliciviruses: San Miguel sea lion and vesicular exanthema of swine viruses constitute a single genotype within the Caliciviridae. 776 8

The predicted amino acid sequence of the vaccinia virus gene A18R shows significant homology to the human ERCC3 gene product, which is a member of the DEXH subfamily of the DNA and RNA helicase superfamily II and which plays a role in both RNA polymerase II transcription and nucleotide excision repair of DNA. The vaccinia virus A18R gene product is expressed throughout infection and is encapsidated in virions. Vaccinia virions containing mutant A18R gene product are defective in early viral transcription in vitro, and infection with A18R mutant virus results in aberrant viral transcription late during infection. Thus we hypothesize that the vaccinia virus A18R gene product is a helicase that plays a role in viral transcription and possibly DNA repair. As a first test of this hypothesis, we have affinity purified an amino-terminal polyhistidine-tagged A18R protein and shown that it has DNA-dependent ATPase activity. The A18R ATPase activity is stimulated by both single-stranded and double-stranded DNA and by RNA.DNA hybrids, but not by either single-stranded or double-stranded RNA.
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PMID:The vaccinia virus A18R gene product is a DNA-dependent ATPase. 782 83

The complete nucleotide sequence of RNA 1 of the tentative furovirus peanut clump virus (PCV) has been determined by characterization of cloned cDNA and by direct RNA sequencing. The sequence is 5897 nucleotides in length and contains three long open reading frames (ORFs). The 5'-terminal proximal ORF has the potential to encode a polypeptide of M(r) 130942 (P131) containing methyltransferase and RNA helicase homologous domains and displaying homology with large nonstructural proteins of alpha-like viruses, which are known or thought to be involved in virus replication. The P131 ORF is followed in-frame by a second ORF which is probably expressed by partial readthrough of the UGA termination codon of the P131 ORF to produce a polypeptide of M(r) 191044 (P191). The readthrough region of P191 contains the characteristic 'core' RNA polymerase motif, indicating that the PCV replicase proteins are expressed as a pair of overlapping proteins as in the tobamoviruses, tobraviruses and the furovirus soil-borne wheat mosaic virus (SBWMV). Sequence comparisons indicate that P131 and P191 are most closely related to the replicase proteins of SBWMV and the hordeivirus barley stripe mosaic virus (BSMV) but are only distantly related to the replicase of the furovirus beet necrotic yellow vein virus (BNYVV). The 3'-terminal proximal ORF can encode a putative polypeptide of M(r) 14556 (P15) which displays homology to small cysteine-rich proteins of hordeiviruses and SBWMV. We have corrected four errors in the sequence of PCV RNA 2 published previously by Manohar et al. (Virology 195, 33-41, 1993). One of these changes causes two small ORFs near the 3' terminus of RNA 2 to be fused together to create an ORF for a putative polypeptide of M(r) 16833 (P17) which displays extensive homology with the third protein of the triple gene block of BSMV RNA beta.
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PMID:Complete nucleotide sequence of peanut clump virus RNA 1 and relationships with other fungus-transmitted rod-shaped viruses. 796 24

When expression of the vaccinia virus gene encoding RAP94 (a protein that is associated with the viral multisubunit RNA polymerase and confers transcriptional specificity for early promoters) was repressed, the infectious virus yield was reduced by more than 99%. Nevertheless, intermediate- and late-stage viral gene expression and formation of ultrastructurally mature, membrane-enveloped virions occurred under the nonpermissive conditions. The RAP94-deficient particles contained the viral genome, structural proteins, early transcription factor, and certain enzymes but, unlike normal virions, had low or undetectable amounts of the viral RNA polymerase, capping enzyme/termination factor, poly(A) polymerase, DNA-dependent ATPase, RNA helicase, and topoisomerase. The presence of these viral enzymes in the cytoplasm indicated that RAP94 is required for targeting a complex of functionally related proteins involved in the biosynthesis of mRNA.
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PMID:Targeting of a multicomponent transcription apparatus into assembling vaccinia virus particles requires RAP94, an RNA polymerase-associated protein. 810 1

Temperature-sensitive mutations (ts10, ts18, and ts39) of the vaccinia virus RNA helicase nucleoside triphosphate phosphohydrolase II (NPH-II) result in the production of noninfectious progeny virions at the restrictive temperature. The noninfectious mutant particles contain the wild-type complement of virion core and envelope polypeptides, as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The results of Western blot (immunoblot) analysis indicate that these particles lack NPH-II, whereas other enzymatic components of the virus core are present. These components include the following: DNA-dependent RNA polymerase subunits rpo147, rpo132, rpo94, rpo35, rpo30, rpo22, and rpo18; early transcription initiation factor subunits A8 and D6; mRNA capping enzyme subunits D1 and D12; RNA cap 2'-O-methyltransferase; A18 DNA helicase; DNA-dependent ATPase NPH-I; and DNA topoisomerase. Although RNA polymerase is encapsidated by the mutant viruses, mRNA synthesis in vitro by permeabilized mutant virions is only 5 to 20% that of the wild-type virus, as judged by nucleoside monophosphate incorporation into acid-insoluble material. Moreover, the transcripts synthesized by the mutant particles are longer than normal and remain virion associated. Transcription initiation by mutant virions occurs accurately at an endogenous genomic promoter, albeit at reduced levels (1 to 7%) compared with that of wild-type virions. In contrast, extracts of the mutant virions catalyze the wild-type level of transcription from an exogenous template containing an early promoter. We conclude that NPH-II is required for early mRNA synthesis uniquely in the context of the virus particle. Possible roles in transcription termination and RNA transport are discussed.
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PMID:Vaccinia virions lacking the RNA helicase nucleoside triphosphate phosphohydrolase II are defective in early transcription. 897 Sep 79

Some cytotoxic drugs cause translocation of nucleophosmin/B23 and other nucleolar proteins to the nucleoplasm. The present study shows that these drugs caused a similar translocation of RH-II/Gu, a nucleolar RNA helicase. Other nucleolar proteins including p120, UBF, RNA polymerase I large subunit, fibrillarin, p40, and Ren-1 did not translocate. A 2-h treatment of MCF-7 breast cancer cells with 0.008 or 0.16 microM actinomycin D resulted in translocation of RH-II/Gu to the nucleoplasm; these effects were not reversed by 100 microM guanosine. The effects of 0.008 microM actinomycin D, but not 0.16 microM actinomycin D, on the translocation of RH-II/Gu were reversed when the drug was removed. However, the effects of 0.008 or 0.16 microM actinomycin D on the translocation of nucleophosmin/B23 were not reversible. The translocation effects of 50 microM toyocamycin on RH-II/Gu were reversed when the drug was replaced with fresh medium. RH-II/Gu mostly relocalized to the nucleoli within 15 min after toyocamycin was withdrawn; only partial relocalization of nucleophosmin/B23 occurred 40 h after removal of the drug. The effects of toyocamycin were not blocked by 100 microM guanosine. Mycophenolic acid (50 microM, 2-h treatment) caused partial translocation of RH-II/Gu; this effect was slowly reversed upon drug removal and was inhibited by 100 microM guanosine, in a manner similar to the effects of mycophenolic acid on the localization of nucleophosmin/B23. This study shows similarities and differences in the drug-induced translocation and relocalization of RH-II/Gu and nucleophosmin/B23. Analysis of translocation of specific nucleolar proteins may offer a quantitative approach to assessment of potency and duration of effects of cytotoxic agents.
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PMID:Effects of cytotoxic drugs on translocation of nucleolar RNA helicase RH-II/Gu. 929 66

The coactivator CBP has been proposed to stimulate the expression of certain signal-dependent genes via its association with RNA polymerase II complexes. Here we show that complex formation between CBP and RNA polymerase II requires RNA helicase A (RHA), a nuclear DNA/RNA helicase that is related to the Drosophila male dosage compensation factor mle. In transient transfection assays, RHA was found to cooperate with CBP in mediating target gene activation via the CAMP responsive factor CREB. As a mutation in RHA that compromised its helicase activity correspondingly reduced CREB-dependent transcription, we propose that RHA may induce local changes in chromatin structure that promote engagement of the transcriptional apparatus on signal responsive promoters.
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PMID:RNA helicase A mediates association of CBP with RNA polymerase II. 932 38

A full-length cDNA clone of beet yellows closterovirus (BYV) was engineered and used to map functions involved in the replication of the viral RNA genome and subgenomic RNA formation. Among 10 open reading frames (ORFs) present in BYV, ORFs 1a and 1b suffice for RNA replication and transcription. The proteins encoded in these ORFs harbor putative methyltransferase, RNA helicase, and RNA polymerase domains common to Sindbis virus-like viruses and a large interdomain region that is unique to closteroviruses. The papain-like leader proteinase (L-Pro) encoded in the 5'-proximal region of ORF 1a was found to have a dual function in genome amplification. First, the autocatalytic cleavage between L-Pro and the remainder of the ORF 1a product was essential for replication of RNA. Second, an additional L-Pro function that was separable from proteolytic activity was required for efficient RNA accumulation. The deletion of a large, approximately 5.6-kb, 3'-terminal region coding for a 6-kDa hydrophobic protein, an HSP70 homolog, a 64-kDa protein, minor and major capsid proteins, a 20-kDa protein, and a 21-kDa protein (p21) resulted in replication-competent RNA. However, examination of mutants with replacements of start codons in each of these seven 3'-terminal ORFs revealed that p21 functions as an enhancer of genome amplification. The intriguing analogies between the genome organization and replicational requirements of plant closteroviruses and animal coronavirus-like viruses are discussed.
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PMID:Genes required for replication of the 15.5-kilobase RNA genome of a plant closterovirus. 962 Oct 48

Among the functions of the replicase of equine arteritis virus (EAV; family Arteriviridae, order Nidovirales) are important viral enzyme activities such as proteases and the putative RNA polymerase and RNA helicase functions. The replicase is expressed in the form of two polyproteins (open reading frame 1a [ORF1a] and ORF1ab), which are processed into 12 nonstructural proteins by three viral proteases. In immunofluorescence assays, the majority of these cleavage products localized to the perinuclear region of the cell. A dense granular and vesicular staining was observed, which strongly suggested membrane association. By using confocal microscopy and double-label immunofluorescence, the distribution of the EAV replicase was shown to overlap with that of PDI, a resident protein of the endoplasmic reticulum and intermediate compartment. An in situ labeling of nascent viral RNA with bromo-UTP demonstrated that the membrane-bound complex in which the replicase subunits accumulate is indeed the site of viral RNA synthesis. A number of ORF1a-encoded hydrophobic domains were postulated to be involved in the membrane association of the arterivirus replication complex. By using various biochemical methods (Triton X-114 extraction, membrane purification, and sodium carbonate treatment), replicase subunits containing these domains were shown to behave as integral membrane proteins and to be membrane associated in infected cells. Thus, contribution to the formation of a membrane-bound scaffold for the viral replication-transcription complex appears to be an important novel function for the arterivirus ORF1a replicase polyprotein.
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PMID:ORF1a-encoded replicase subunits are involved in the membrane association of the arterivirus replication complex. 965 16

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