Gene/Protein Disease Symptom Drug Enzyme Compound
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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 full-length E2 protein of human papillomavirus type 16 is believed to act as a trans-repressor of the viral p97 promoter. Previous reports have provided evidence that transcripts with the potential to encode the E2 protein contain the 880/2708 splice junction. We have further analyzed the structure of the E2-encoding transcripts. Employing the RNA polymerase chain reaction (PCR) technique and analyses of the RNA PCR products by Southern blot hybridization and DNA sequencing, we revealed the existence of a variety of alternatively spliced mRNAs, with the capacity to encode the full-length E2 protein. Two novel splice junctions were identified at nucleotides 880/2581 and 226/2708. E2 mRNAs characterized by the 880/2581 splice junction contain sequences from the E1 orf predicted to encode a truncated E1 polypeptide consisting mainly of the C terminal amino acids. Transcripts with the 226/2708 splice junction could encode a novel E6 protein, designated E6IV, containing C terminal amino acids derived from an out-of-frame region of the E1 ORF. Three different E6-E7 exons were identified in mRNAs containing the 880/2708 and the 880/2581 splice junctions, namely, E6-E7, E6I-E7, E6II-E7. The E6I-E7 mRNAs are the most abundant. Expression of the various E2 mRNAs was detected in human keratinocytes immortalized by HPV16, in cervical tumors, and in carcinoma cell lines.
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PMID:Human papillomavirus type 16 expresses a variety of alternatively spliced mRNAs putatively encoding the E2 protein. 133 30

Three open reading frames (ORFs) have been found in the region downstream of the luxG gene in the Photobacterium leiognathi lux operon. These genes (ORF I, II, and III) are not only closely linked to the lux operon and transcribed in the same direction but also show the same organization and code for proteins homologous in sequence to the gene products of ribB, ribA, and ribH of Bacillus subtilis, respectively. The Photobacterium leiognathi gene (ORF II) corresponding to ribA was expressed in Escherichia coli in the bacteriophage T7 promoter-RNA polymerase system and a 40 kDa 35S-labeled polypeptide has been detected on SDS-PAGE. Expression of DNA extending from luxBEG to ORF II inserted between a strong promoter and a reporter gene and transferred by conjugation into Vibrio harveyi did not affect the expression of the reporter gene. The results provide evidence that neither promoter nor terminator sites were present in the DNA between the luxG and ORF II indicating that these genes might be part of the lux operon.
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PMID:The lux genes in Photobacterium leiognathi are closely linked with genes corresponding in sequence to riboflavin synthesis genes. 133 74

The promoter region of the agarase gene (dagA) of Streptomyces coelicolor A3(2) is complex; it consists of four distinct promoters with different -10 and -35 regions. We report the isolation of a form of RNA polymerase that mediates transcription in vitro from the dagAp4 promoter. The core components of this RNA polymerase are associated with a polypeptide of c. 66 kDa; holoenzyme reconstitution experiments show that the 66 kDa polypeptide functions as a sigma factor that directs transcription from the dagAp4 and Bacillus subtilis veg promoters in vitro. Alignment of the DNA sequences of these two promoters shows that they have bases in common in the -10 and -35 regions and that these sequences are similar to those observed for the major RNA polymerases of other bacteria. N-terminal amino acid sequence analysis of the 66 kDa polypeptide revealed it to be the product of the hrdB gene. Previous experiments showed that the predicted amino acid sequence of the hrdB gene product is very similar to the major sigma factors of other bacteria and suggested that disruption of the hrdB gene is lethal. These observations together lead to the conclusion that we have isolated the major RNA polymerase of Streptomyces coelicolor A3(2). We have developed an improved protocol for the renaturation of sigma factors that have been isolated by preparative sodium dodecyl sulphate/polyacrylamide gel electrophoresis (SDS-PAGE). This method involves renaturing the polypeptide in the presence of the bacterial chaperonin GroEL. We expect this protocol to find general application for renaturation of other polypeptides that have been subjected to SDS-PAGE.
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PMID:Isolation and characterization of the major vegetative RNA polymerase of Streptomyces coelicolor A3(2); renaturation of a sigma subunit using GroEL. 135 Mar 15

Transcription factor IID (TFIID) binds to TATA boxes, nucleating the assembly of initiation complexes containing several general transcription factors and RNA polymerase II. Recently, TFIID was shown to be a multisubunit complex containing a TATA box-binding polypeptide (TBP) and several tightly associated polypeptides (TAFs), which are required for transcriptional stimulation by activator proteins. Here, we report the development of a human cell line expressing an epitope-tagged TBP and the immunopurification of a native, high-molecular-weight form of TFIID that supports transcriptional stimulation by several different classes of activation domains. Recovery of basal and activated TFIID transcriptional specific activity was close to approximately 100%. Electrophoretic mobility-shift analysis demonstrated a single major DNA-protein complex. This holo-TFIID contains TAFs of approximately 250, 125, 95, 78, and 50 kD and sediments at 17S. Holo-TFIID produced an extended footprint over the adenovirus major late promoter TATA box and initiator sequence and supported transcriptional activation from a promoter lacking a TATA box. These results lead us to hypothesize that a single multisubunit TFIID protein supports transcriptional stimulation by diverse activation domains and from a TATA-less promoter.
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PMID:Holo-TFIID supports transcriptional stimulation by diverse activators and from a TATA-less promoter. 139 73

The RPC34 gene of Saccharomyces cerevisiae was cloned by immunological screening, using antibodies raised against the C34 polypeptide of the RNA polymerase III (C). This single copy gene was located near the centromere of chromosome XIV. It included a coding sequence of 317 amino acids that strictly matched two internal oligopeptides of C34. This polypeptide is a specific component of RNA polymerase III, with no significant homology to any other RNA polymerase subunit known so far. It is an essential subunit, since inactivation by deletion or nonsense mutations led to a recessive lethal phenotype. Moreover, a partially blocked mutant, rpc34-F297, had a reduced tRNA synthesis in vivo but no detectable effect on 5 S RNA synthesis. The latter phenotype was observed for all conditionally defective RNA polymerase III mutants isolated so far.
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PMID:An essential and specific subunit of RNA polymerase III (C) is encoded by gene RPC34 in Saccharomyces cerevisiae. 140 Apr 51

Previously we have shown that nuclear extracts from mouse cells contain a heterogeneous group of polypeptides (p65, p80, p90, p100) which form distinct DNA-protein complexes on the 18 base-pair sequence element (termed Sal-box), which constitutes the murine rDNA transcription termination signal. These distinct proteins mediate cessation of RNA polymerase I (pol I) transcription elongation and release of the nascent RNA chains, indicating that they function as termination factor(s). Here, we report the biochemical analysis of the pol I-specific transcription termination factor TTFI. We show that the heterogeneity of TTFI is due to limited proteolysis of a larger, 130 kDa precursor protein (p130). The DNA-binding activity of p130 is strongly reduced as compared to the proteolytic derivatives, indicating that the DNA-binding domain is repressed within the full-length molecule. We have used limited proteolysis to purify and functionally characterize a TTFI core polypeptide (p50) which still specifically binds to the Sal-box target sequence and directs rDNA transcription termination. The equilibrium constant of purified p50 to bind specifically to DNA is 9 x 10(9) M-1. Additionally, we demonstrate that TTFI binds to DNA as a monomer and that binding induces DNA bending. This observation suggests that not only specific DNA-protein and protein-protein interactions but also conformational alterations of DNA may play a role in the termination process.
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PMID:Limited proteolysis unmasks specific DNA-binding of the murine RNA polymerase I-specific transcription termination factor TTFI. 140 80

Ciliated protozoa harbor two different types of nuclei in each cell. The diploid micronucleus is the transcriptionally inactive generative nucleus, while the macronuclous contains a highly amplified transcriptionally active genome of lower complexity. The macronuclear genes encoding the two largest subunits of both RNA polymerases I and II of Euplotes octocarinatus were identified by a novel method of two step PCR walking, employing primer pairs derived from telomeric sequences of the organism and known conserved RNA polymerase polypeptide sequences, respectively. The relative gene dosage was determined. The genes are present in equal copy numbers for the respective matching subunits. Northern hybridizations showed comparable amounts of transcripts, as well, within the matching pairs. Mapping of the 5'-termini of the transcripts of the gene sized chromosomes showed that the upstream nontranscribed regions are very short and contain characteristic sequence motifs which could be the determinants of equal promoter strengths for subunits of a common RNA polymerase.
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PMID:Gene dosage as a possible major determinant for equal expression levels of genes encoding RNA polymerase subunits in the hypotrichous ciliate Euplotes octocarinatus. 140 46

A synthetic gene based on the published amino acid sequence for Clostridium pasteurianum rubredoxin was constructed, cloned in Escherichia coli 71/18 and expressed using the T7 RNA polymerase/promoter system in E. coli HMS273. UV/visible spectroscopy and metal analyses indicated that the as-isolated synthetic gene product is a mixture of holo-(i.e. iron-containing) rubredoxin and zinc-substituted rubredoxin, with the latter amounting to approximately 70% of the total rubredoxin. The UV/visible absorption and resonance Raman spectra of the cloned holorubredoxin are characteristic of the native rubredoxin-type iron site. N-terminal amino acid sequencing suggests that the gene product consists of at least three polypeptide species with the initial sequences (approximate relative abundances): Met-Met-Lys-... (63%), blocked (30%) and Met-Lys-... (7%). The blocked portion presumably consists of a mixture of nMet-Met-Lys-... and nMet-Lys-..., where nMet represents an amino-blocked methionine residue.
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PMID:Expression of a synthetic gene coding for the amino acid sequence of Clostridium pasteurianum rubredoxin. 140 58

The gene encoding the major replicative protein, NS1, of minute virus of mice (MVM) was transferred into a recombinant vaccinia virus vector in place of the vaccinia thymidine kinase gene. The NS1 gene was placed under control of a bacteriophage T7 promoter and expressed in cells coinfected with another recombinant vaccinia virus, vTF7-3, which encodes the T7 RNA polymerase. Expression of NS1 was further enhanced by the presence of a 5' untranslated region, derived from encephalomyocarditis virus, which allows efficient cap-independent translation. This system was used to produce and analyze wild-type NS1 and two mutant forms of the protein, NS1K405R and NS1K405M, in which the highly conserved lysine codon located in the putative purine triphosphate binding site of NS1 was changed to arginine and methionine, respectively. Full-length NS1 was expressed efficiently in both human and mouse cells infected with each of the three recombinant viruses, and in each case the NS1 was rapidly and efficiently translocated into the nucleus. Wild-type NS1 expressed in this way was biologically active. It was able to trans-activate an MVM P38 promoter located in a host chromosomal site, whereas the two mutant forms of NS1 showed no significant activity in this assay, and it was capable of resolving palindromic junction fragments cloned from multimeric MVM replicative form DNA molecules. These substrates, representing MVM genomic left-end:left-end and right-end:right-end fusions, were resolved in a DNA synthesis-dependent in vitro reaction supplemented with nuclear extracts containing recombinant wild-type NS1. Neither of the two mutant forms of the polypeptide had any detectable activity in this assay.
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PMID:Expression of functional parvoviral NS1 from recombinant vaccinia virus: effects of mutations in the nucleotide-binding motif. 141 12

An RNA polymerase activity has been purified from pea (Pisum sativum) chloroplast extracts with a distinct transcriptional specificity for a chloroplast messenger gene. This activity (ms-RNA pol) differs from the pea RNA polymerase preparation reported by Sun, Shapiro, Wu & Tewari [(1986) Plant Mol. Biol. 6, 429-439], which specifically transcribes only the rRNA gene (rb-RNA pol). The specificity of transcription has been assessed by the synthesis in vitro of discrete transcripts of predicted sizes using cloned promoter regions of the chloroplast psbA and 16 S rRNA genes. The ms-RNA pol preparation, with polypeptides ranging in apparent molecular mass from 22 to 180 kDa, correctly initiates transcription from recombinant plasmids containing the psbA promoter and does not support 16 S rRNA promoter-directed transcription. The two activities differ also in their response to Mn2+ ions. To investigate whether the two transcriptional activities share common functional polypeptides, monoclonal antibodies were developed against the rb-RNA pol preparation. Three clones were selected on the basis of their ability to inhibit transcription in vitro of the 16 S rRNA gene by rb-RNA pol. The antibodies from these clones independently recognized three polypeptides with molecular masses of 27, 90 and 95 kDa on immunoblots. Antibodies cross-reacting with the 90 kDa polypeptide completely eliminated the specific retardation of an end-labelled 16 S rRNA promoter fragment in a mobility-shift assay, whereas the antibodies against the 95 kDa polypeptide resulted in the formation of a ternary complex (enzyme-DNA-antibody). The antibodies cross-reacting with the 27 kDa polypeptide, however, did not alter the mobility of the retarded DNA-enzyme complex on the gel. These antibodies also inhibited transcription in vitro of the psbA gene by ms-RNA pol and recognized polypeptides of identical molecular masses in the ms-RNA pol. These results show that the three polypeptides are functional components of the chloroplast transcriptional complex and appear to be involved in the transcription of both rRNA and mRNA genes. Transcriptional specificity is probably conferred by ancillary transcription factor(s) which remain to be identified.
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PMID:Two distinct transcriptional activities of pea (Pisum sativum) chloroplasts share immunochemically related functional polypeptides. 141 45


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