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)

1. The surface of the RNA-polymerase-DNA complex possesses an exposed polypeptide loop. 2. Proteinases with differing specificities (trypsin, chymotrypsin, subtilisin and clostripain) preferentially cleave the exposed region. 3. The cleaved polypeptide is reassembled into RNA polymerase by renaturation from a solvent which promotes a random coil conformation. 4. Isolated beta subunit has a proteolytically resistant nucleus of approximately 70000 molecular weight. This resistant polypeptide may be generated by trypsin, chymotrypsin, subiilisin or clostripain. 5. Isolated alpha subunits are comparatively resistant to proteolysis. 6. Although of similar molecular weights beta and beta' appear to have unrelated primary sequences and markedly different conformations in free solution. 7. Digestion of the beta subunit may be blocked by formation of the alpha2beta subassembly. 8. Evidence is presented suggesting that beta' in the intact enzyme (alpha2beta beta') possesses the exposed polypeptide loop.
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PMID:Structural properties of Escherichia coli RNA polymerase Subunits. 77 11

DNA-dependent RNA polymerase lacking subunit sigma was digested with matrix-bound chymotrypsin or trypsin in the presence of 0.4 M NaCl in the monomeric form or at low ionic strength in the oligomeric form. Sigma-containing polymerase was digested in the same way. The course of proteolysis was followed by polyacrylamide gel electrophoresis after dissociation of the enzyme with detergent into subunits and the fragments produced by the hydrolysis. The following results were obtained. (a) The large subunits beta and beta' are cleaved with a much higher rate in the monomeric than in the oligomeric polymerase. (b) Both large subunits are hydrolysed with the same rate. (c) Subunit alpha is hydrolysed almost with the same rate in the monomeric and oligomeric form of polymerase. (d) The same was found for subunit sigma. (e) These effects were independent of the substrate specificity of the protease used. (f) Subunit sigma is much more susceptible to chymotrypsin than to trypsin. (g) Subunit sigma protects the large subunits beta and beta' against tryptic cleavage. These results can be explained in terms of a tentative model for the topography of the protomer-protomer interactions in RNA polymerase. According to this model subunits beta and beta' contain two sites for isologous interactions of protomers. One site can be blocked by attachment of subunit sigma. Subunits alpha and sigma do not participate directly in the association.
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PMID:Digestion with matrix-bound proteases as a possible probe for the topography of the DNA-dependent RNA polymerase from Escherichia coli. 109 50

Defective reovirus, which lacks the largest (L1) of the 10 double-stranded (ds) RNA genomic segments, attaches to L cells and is uncoated in the same way as reovirus. The defective genome does not replicate in the cells, but it is transcribed. During the first 5 h after infection, three of the genomic segments, M3, S3, and S4, are more frequently transcribed than the remaining six segments. During the succeeding 5 h, there is a transition to a situation in which all nine segments are transcribed at the same relative frequencies. Since the class C ts mutation has been allocated to the L1 segment (Spandidos and Graham, 1975) the transcription of the C mutant genome was investigated in cells infected with it at the nonpermissive temperature, at which the parental genome does not replicate. Genomic segments L1, M3, S3, and S4 are predominantly transcribed at early times, and later all 10 segments are transcribed with the same relative frequencies. Transcription of the defective viral genome and the C mutant genome is therefore regulated in the same way as previously found for wild-type virus (Nonoyama, Millward, and Graham, 1974), and the regulation is independent of genome replication. Apparently the L1 segment function is involved in dsRNA synthesis but not in regulating the early to late transcription. It is suggested that a cellular repressor may be involved in this regulation and that derepression might be effected by one of the early viral gene products. Virion transcriptase activity was studied in vitro with cores prepared by chymotrypsin digestion of purified defective and standard virions. For both genomes the relative frequencies of transcription of the dsRNA segments are inversely proportional to their molecular weights. These results can be accounted for in a model that postulates each segment to be transcribed independently of the other. The same model with certain restrictions can describe the in vivo transcription of the viral genome.
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PMID:Regulated transcription of the genomes of defective virions and temperature-sensitive mutants of reovirus. 125 77

Transcription factor IID from Saccharomyces cerevisiae (YIID) binds the TATA box element present in most RNA polymerase II promoters. In this work, partial proteolysis was used as a biochemical probe of YIID structure. YIID consists of a protease-sensitive amino terminus and a highly stable, protease-resistant carboxy-terminal core. The cleavage sites of the predominant chymotrypsin- and trypsin-derived fragments were mapped to amino acid residues 40 to 41 and 48 to 49, respectively, by amino-terminal peptide sequencing. Removal of the amino terminus resulted in a dramatic increase in the ability of YIID to form a stable complex with DNA during gel electrophoresis mobility shift assays and a two- to fourfold increase in DNA-binding affinity, as assayed by DNase I footprinting analysis. The carboxy-terminal 190-amino-acid core was competent for transcription in vitro and was similar in activity to native YIID. DNA containing a TATA element induced hypersensitive sites in the amino-terminal domain and stabilized the core domain to further proteolytic attack. Native YIID did not bind to a TATA box at 0 degrees C, whereas the carboxy-terminal DNA-binding domain did. These results suggest that YIID undergoes a conformational change upon binding to a TATA box. Southern blotting showed that the carboxy-terminal domain is highly conserved, while the amino-terminal domain diverged rapidly in evolution, even between closely related budding yeasts.
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PMID:Two distinct domains in the yeast transcription factor IID and evidence for a TATA box-induced conformational change. 198 53

The fiber proteins of adenovirus serotype 2 Ad2 and serotype 3 Ad3 and structural protein IIIa of wild type Ad2 and Ad2 ts 112 mutant were cloned and expressed in E. coli. For the expression of both fiber proteins a gene expression system based on bacteriophage T7 RNA polymerase was used. The expressed proteins constituted 1-3% of total host cell protein. Both proteins were insoluble and inclusion bodies were observed. The proteins could be purified from cellular debris by extraction with 6 M urea followed by chromatography in the presence of diminishing concentration of urea. The folding of recombinant fiber proteins was assessed by sensitivity to proteases and gel filtration. Both proteins were synthetized as trimers. Ad2 recombinant fiber has a much less compact structure than native Ad2 fiber, since on gel filtration it is excluded before the native fiber. It is also much more sensitive to chymotrypsin digestion than the native protein. Contrary to that, Ad3 recombinant fiber is much less sensitive to proteolytic cleavage and on gel filtration has the same exclusion volume as the trimeric native fiber of Ad3.
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PMID:Structural proteins of adenovirus. Expression in Escherichia coli. 208 15

The Sendai virus ribonucleoprotein (RNP) showed only very low plaque-forming titers upon transfection and the virus yields after one-step growth were quite limited. We tried to enhance the Sendai virus yield by supplying the viral L and P/C gene products through vaccinia vectors. A combination of the recombinant vaccinia viruses carrying the L gene (Vac-HL) and the P/C gene (Vac-HPC), both of which were driven by the promoter of the vaccinia virus 7.5K protein gene, enhanced the yield only a little whereas another combination of Vac-HLd7.5, the L gene insert of which was driven by the promoter of the vaccinia virus thymidine kinase gene in place of the 7.5K promoter, and Vac-HPC greatly enhanced the Sendai virus yield. This seemed to correlate with the fact that the Vac-HL interfered with Sendai virus growth markedly while the Vac-HLd7.5 did not. These results strongly suggest that the L and P/C gene products act in cooperation as the RNA polymerase, and overproduction of the L protein is inhibitory for Sendai virus growth. This system seems to be of value as a tool for analyzing the functions of L and P/C genes of Sendai virus.
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PMID:Rescue of Sendai virus from viral ribonucleoprotein-transfected cells by infection with recombinant vaccinia viruses carrying Sendai virus L and P/C genes. 254 27

We have cloned and expressed in Escherichia coli the gene encoding the trimeric fiber protein of human adenovirus type 2. A gene expression system based on bacteriophage T7 RNA polymerase was used. Optimal gene expression was obtained with 1-h induction, at a temperature of 30 degrees C. The synthesized protein constituted about 1% of total host-cell protein. During induction, the growth of bacteria carrying the plasmid containing the fiber gene, was retarded compared with that of bacteria carrying the plasmid without the fiber gene. This toxic effect of fiber protein on bacterial hosts could be diminished by addition of glucose to the medium and by maintaining the pH above 7, thus improving the yield of recombinant fiber protein. The fiber protein produced in E. coli is stable during the course of induction. It is insoluble in buffers at physiological pH, in various salt solutions, and in the presence of nonionic detergents. It can be solubilized in 1% sodium dodecyl sulfate or in urea solutions above 2 M. There are indications that recombinant fiber trimerizes spontaneously, since after the removal of urea by dialysis at pH 8, recombinant fibers runs similarly to native trimeric fiber, on nondenaturing polyacrylamide gels. This trimer has, however, a less compact structure than native Ad2 fiber, since during gel filtration recombinant protein is excluded before native protein. It is also more sensitive to chymotrypsin digestion than native fiber.
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PMID:Synthesis of human adenovirus type 2 fiber protein in Escherichia coli cells. 268 Jul 70

Eight eukaryotic promoters have been tested for their activity in vivo in Escherichia coli. The rat beta-actin, rat amylase, rat chymotrypsin B, mouse metallothionein I, rat insulin I, human insulin, Rous sarcoma virus long terminal repeat (RSV LTR) and hepatitis B viral precore promoter activities were measured by using the bacterial chloramphenicol acetyltransferase coding sequences as the reporter function and by primer extension RNA analysis. All eight promoter-chloramphenicol acetyltransferase constructs produce chloramphenicol acetyltransferase activity with the following relative strengths: RSV LTR greater than rat beta-actin greater than rat insulin I greater than rat amylase greater than hepatitis B virus precore greater than human insulin greater than rat chymotrypsin B greater than mouse metallothionein I. A primer extension analysis indicates that transcription from the RSV LTR, rat insulin I, and rat beta-actin promoters initiates at the sites expected for eukaryotic rather than prokaryotic promoters. Thus the site of initiation is determined by the DNA sequence rather than by the RNA polymerase.
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PMID:Eukaryotic promoters drive gene expression in Escherichia coli. 268 Nov 82

The simian rotavirus SA11 genome segment 10 codes for a nonstructural glycoprotein, NS28, that has been hypothesized to be involved in budding of viral particles into the endoplasmic reticulum (ER) membrane. Previous studies had suggested that NS28 is an integral membrane protein of the ER, possibly a transmembrane protein. We have examined the topography of NS28 inserted in microsomal membranes following cell-free translation of genome segment 10 transcripts. These transcripts were obtained either by hybrid selection of mRNA synthesized by the endogenous viral RNA polymerase or by in vitro transcription of genome segment 10 cDNA using SP6 polymerase. Full-length and truncated gene 10 transcripts were translated in a cell-free system supplemented with dog pancreatic microsomes. The existence of a cytoplasmic domain of the translation product was demonstrated by protease protection experiments. An 18,000 (18K) mol wt glycosylated polypeptide was protected from digestion with proteinase K and trypsin, whereas chymotrypsin digestion yielded a 23K mol wt glycosylated polypeptide. Correlation of these biochemical data with the known sequence of NS28 suggests that a 10K mol wt hydrophilic, carboxy-terminal fragment (from amino acid number 86 to amino acid number 175) of this glycoprotein is exposed on the cytoplasmic side of the ER membrane. A model of how NS28 folds in the ER membrane is proposed.
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PMID:Topography of the simian rotavirus nonstructural glycoprotein (NS28) in the endoplasmic reticulum membrane. 283 61

Effective purification methods have been developed for virus particles, infectious subviral particles (ISVP), and virus cores of bluetongue virus (BTV) serotypes 1 and 4. The purified particles were analysed by indirect ELISA or PAGE using either silver staining, or fluorography of [35S]methionine-labelled preparations. No significant contamination with host cell proteins, or with the majority of BTV nonstructural proteins was detectable in any of the particle preparations. In addition to the two major outer capsid and five core proteins previously described, the purified virus particles of both serotypes were consistently found to contain small amounts of BTV protein NS2, previously regarded as exclusively nonstructural. This protein could be removed from the particle surface by treatment with a combination of chymotrypsin and sodium N-lauroyl sarcosinate, which also resulted in the cleavage of the larger of the two major outer capsid components (protein VP2). Two of the cleavage products of VP2 and the whole of the other major outer capsid component (protein VP5) formed a modified outer capsid layer in the resultant ISVP. These subviral particles were as or more infectious than the intact virus particles but had lost haemagglutinating activity. The core-associated RNA polymerase remained inactive in ISVP.
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PMID:Purification and properties of virus particles, infectious subviral particles, and cores of bluetongue virus serotypes 1 and 4. 302 78

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