Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q9NRP7 (fused)
58,367 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cultures of the rat skeletal muscle myoblast cell line, L6, were treated with the mutagen ethylmethanesulfonate and grown in the presence of alpha-amanitin, an inhibitor of RNA polymerase II in vitro. One clonal cell line, Ama102, resistant tc the cytotoxic action of 2 mu-g/ml of alpha-amanitin was isolated and extensively characterized. Ama102 cells were about 30-fold more resistant to alpha-amanitin than their Ama+ parent cells based on a comparison of the concentration of alpha-amanitin required to reduce their plating efficiencies to similar extents. The RNA polymerase activities from Ama+ and Ama102 cells were solubilized and separated by DEAE-Sephadex chromatography. Whereas all of the Ama+ RNA polymerase II activity was inhibited by 0.1 mu-g/ml of alpha-amanitin, about 30% of the activity in the Ama102 RNA polymerase II peak was resistant to this concentration of alpha-amanitin and was inhibited only by much higher concentrations (25 mu-g/ml) of alpha-amanitin. This alpha-amanitin-resistant activity in Ama102 cells was identified as a bona fide RNA polymerase II by its chromatographic behavior on DEAE-Sephadex, salt optimum, preference for denatured DNA as template, insensitivity to inhibition by potassium phosphate, thermal inactivation kinetics, and inactivation by anti-RNA polymerase II antiserum. Both RNA polymerase IIa and IIb from Ama102 cells exhibited the partial alpha-amanitin resistance, as did this activity when purified further on phosphocellusose. Unlike the parental Ama+ cells, Ama102 cells neither fused at confluence nor showed an increase in the specific activity of creatine kinase. The altered sensitivity of the Ama102 RNA polymerase II to alpha-amanitin appears to account for the drug-resistant phenotype of these cells.
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PMID:Isolation and characterization of an alpha-amanitin-resistant rat myoblast mutant cell line possessing alpha-amanitin-resistant RNA polymerase II. 16 92

We developed a general procedure for the induction and identification of mutations in chromosomal essential genes that are located in a diploid region of Escherichia coli K-12. The partial diploidy is conferred by an episome that is temperature sensitive for replication so that a mutant strain will form microcolonies at 42 C on complete media if an essential chromosomal gene in the diploid region is defective. Mutations identified by this procedure can be classified into cistrons by a complementation method devised for the purpose. To verify that the procedure works in practice, we fused an episome covering the rif region with an Ftslac+ and used the resulting temperature-sensitive episome to identify chromosomal mutations in essential functions near rif. As expected, a certain proportion of the mutations were in the rif gene, an essential gene that codes for the beta subunit of ribonucleic acid polymerase.
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PMID:Method for the isolation of Escherichia coli K-12 mutants deficient in essential genes. 77 Apr 28

We examined the expression of choB, encoding cholesterol oxidase of Brevibacterium sterolicum ATCC 21387, in Escherichia coli JM105 and Streptomyces lividans TK23 using various deletion DNA fragments within the 5'-flanking region. The enzyme activity could be detected intracellularly in E. coli only when the 5'-flanking region was reduced to less than 256-bp and choB was transcribed by the lac promoter. A large amount of the enzyme were produced as inactive inclusion bodies when ChoB protein was fused with the NH2-terminal portion of LacZ protein. In contrast, choB with more than 256-bp of the 5'-flanking region was efficiently expressed in S. lividans TK23, and about 85 times as much of the active enzyme (170 U/ml) was secreted into the culture filtrate as with B. sterolicum in flask culture. These results suggest that the promoter of choB exist within 256-bp of the 5'-flanking region and can be efficiently recognized by the RNA polymerase of S. lividans. The characteristics of the enzyme purified from the culture filtrate of the S. lividans transformant and that of B. sterolicum were identical although the NH2-terminal amino acid sequence of the enzyme from the S. lividans transformant was 6 amino acids shorter than that from B. sterolicum.
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PMID:Hyperexpression and analysis of choB encoding cholesterol oxidase of Brevibacterium sterolicum in Escherichia coli and Streptomyces lividans. 136 73

Incorporation into a positioned nucleosome of a cis-acting element essential for replication in Saccharomyces cerevisiae disrupts the function of the element in vivo [R. T. Simpson, Nature (London) 343:387-389, 1990]. Furthermore, nucleosome positioning has been implicated in repression of transcription by RNA polymerase II in yeast cells. We have now asked whether the function of cis-acting elements essential for transcription of a gene transcribed by RNA polymerase III can be similarly affected. A tRNA gene was fused to either of two nucleosome positioning signals such that the predicted nucleosome would incorporate near its center the tRNA start site and essential A-box element. These constructs were then introduced into yeast cells on stably maintained, multicopy plasmids. Competent tRNA genes were transcribed in vivo and were not incorporated into positioned nucleosomes. Mutated, inactive tRNA genes were incorporated into nucleosomes whose positions were as predicted. This finding demonstrates that the transcriptional competence of the tRNA gene determined its ability to override a nucleosome positioning signal in vivo and establishes that a hierarchy exists between cis-acting elements and nucleosome positioning signals.
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PMID:A transcriptionally active tRNA gene interferes with nucleosome positioning in vivo. 150 99

The recombinant hepatitis delta virus antigen was obtained as a chimaeric protein fused to the C-terminus of the phage MS2 RNA polymerase. Following induction of the temperature-sensitive promoter, two major polypeptides of about 34 kDa and 29 kDa, and two minor peptides about 21 kDa and 18 kDa, were obtained on PAGE. The 34-kDa protein was identified as the expected recombinant protein by confirming 82% of the primary structure using fast-atom-bombardment mass spectrometry. The most represented degradation product, i.e. the 29-kDa polypeptide, was also characterized by means of mass spectrometry and found to be produced by cleavage between amino acids 261 and 265. The presence of two main protein bands, with a similar difference in size, is also a typical feature of delta antigens, both extracted and recombinant, and it is considered to be derived either from heterogeneity of viral sequences, which can encode hepatitis delta antigen proteins of 195 and 214 amino acids, or from proteolysis of a single precursor. Since the data were obtained with a single viral sequence coding for 195 amino acids fused to 106 residues from MS2 polymerase, there is direct evidence that intrinsic structural properties of the protein sequence are able to cause a specific proteolysis resulting in the presence of two major forms, of which the smaller is 35-40 amino acids at the C-terminus. The recombinant protein can be used as an antigenic substitute of viral antigens both for immunoassays and for the preparation of anti-(hepatitis delta virus) antisera.
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PMID:Characterization by mass spectrometry of a recombinant hepatitis delta virus antigen and its proteolytic products. 154 Dec 67

Isolated transcription complexes contain a protein kinase that phosphorylates the heptapeptide repeats of the carboxy-terminal domain (CTD) of the RNA polymerase II (RNAP II) large subunit in an apparently promoter-dependent manner. We now show that the essential features of this reaction can be reproduced in a reconstituted system containing three macromolecular components: a fusion protein consisting of the CTD of RNAP II fused to a heterologous DNA-binding domain, an activating DNA fragment containing the recognition sequence for the fusion protein, and a protein kinase that binds nonspecifically to DNA. This kinase closely resembles a previously known DNA-dependent protein kinase. Evidently, the association of the CTD with DNA provides a key signal for phosphorylation. There appears to be no absolute requirement for specific contacts with other DNA-bound transcription factors.
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PMID:DNA binding provides a signal for phosphorylation of the RNA polymerase II heptapeptide repeats. 154 41

We have used DNA templates containing a vaccinia early promoter fused to G-less cassettes of varying length to study the formation of ternary transcription complexes by vaccinia virus RNA polymerase. Elongating polymerases were induced to pause at discrete sites on the DNA template by omission of GTP from transcription reactions. For most of the templates examined, the predominant sites of pausing were at or near the downstream border of the G-less transcription unit, as revealed by the size distribution of labeled RNAs synthesized in pulse-labeling reactions. Stability of ternary complexes containing nascent RNAs of any given length was assessed by the ability of these RNAs to be elongated upon provision of GTP. This criterion of stability could be met by complexes containing nascent RNAs as short as seven, eight, or nine nucleotides. In the presence of 3'-OMeGTP, nearly homogeneous populations of 3'-coterminal elongation complexes were positioned at the first G residue of the template. 3'-OMeG-arrested polymerases resumed elongation upon addition of GTP, apparently via sequential pyrophosphorolysis and nucleotide exchange at the site of elongation block. The ability to fix the 3' end facilitated analysis of initiation site choice based on the sizes of short nascent transcripts. Site choice was flexible and depended on the concentration of both the potential initiating NTP and the donor NTP participating in first phosphodiester bond formation. RNA polymerase could initiate at multiple positions within a nine-nucleotide region of the template. The rate of chain elongation by vaccinia polymerase during a single synchronous round of RNA synthesis was found to be 20-50 nucleotides per second.
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PMID:Stability of ternary transcription complexes of vaccinia virus RNA polymerase at promoter-proximal positions. 155 99

The gene encoding bacteriophage T7 RNA polymerase (T7gene1) was placed under the control of regulatory elements from the Escherichia coli lac operon to construct an inducible vaccinia virus expression system consisting entirely of prokaryotic transcriptional machinery. Regulated expression of T7 RNA polymerase was necessary to construct a stable recombinant vaccinia virus harboring a T7 promoter; otherwise, uncontrolled expression led to interference with endogenous virus replication. To this end, the gene encoding the repressor protein of the lac operon was fused to a viral early/late promoter so that it was expressed constitutively, and the lac operator was interposed between a viral major late promoter and T7gene1. Greater than 99% repression of T7 RNA polymerase, which was relieved approximately 80-fold in the presence of the inducer isopropyl-beta-D-thiogalactopyranoside (IPTG), was obtained. An expression cassette containing a T7 promoter-controlled beta-galactosidase reporter gene was recombined into a different region of the viral genome containing T7gene1. A stable, double recombinant virus was isolated and grown to a high titer. In the absence of inducer, beta-galactosidase expression was substantially repressed. Addition of increasing amounts of IPTG induced expression of beta-galactosidase to the point of suppression of viral replication. This hybrid vaccinia virus system (Vac/Op/T7) has potential applications for the efficient bioproduction of a wide variety of gene products.
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PMID:Regulated expression of foreign genes in vaccinia virus under the control of bacteriophage T7 RNA polymerase and the Escherichia coli lac repressor. 156 May 32

Inverted sequences of the chloramphenicol acetyltransferase (CAT) reporter gene were fused to a soybean tRNA(met(i)) gene lacking a terminator such that the tRNA(met(i)) sequences caused the co-transcription of CAT antisense sequences by RNA polymerase III. When electroporated into carrot protoplasts, these antisense DNA constructs suppressed CAT enzyme activity expressed from co-electroporated DNAs containing the CAT gene downstream of the cauliflower mosaic virus (CaMV) 35S RNA promoter. Our most effective construct, an antisense sequence complementary to the 3' portion of the CAT gene, inhibited CAT activity five-fold greater than an antisense construct expressed by RNA polymerase II from the cauliflower mosaic virus 35S RNA promoter. These results indicate that antisense sequences transcribed by RNA polymerase III should efficiently suppress gene expression in plants.
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PMID:Suppression of gene expression in plant cells utilizing antisense sequences transcribed by RNA polymerase III. 162 77

srfA is an operon required for the production of the lipopeptide antibiotic surfactin, competence development, and efficient sporulation in Bacillus subtilis. The expression of srfA is induced after the end of exponential growth and is dependent on the products of late-growth regulatory genes comP, comA, and spo0K. To begin to understand the mechanism of srfA regulation, the srfA promoter region was identified and characterized. To examine srfA promoter activity, the srfA promoter was fused to lacZ and inserted into the B. subtilis chromosome as a single copy at the SP beta prophage. The location of the transcription start site of srfA was determined by primer extension analysis and shown to be preceded by a sequence that resembles the consensus promoter recognized by the sigma A form of RNA polymerase. The srfA operon was found to have a sequence corresponding to a long, untranslated leader region of the srfA mRNA (300 bp). A nucleotide sequence and mutational analysis of the promoter identified a region of dyad symmetry required for srfA-lacZ expression. A similar sequence is found in the region upstream of the degQ promoter, transcription from which is also regulated by ComA. This region of dyad symmetry found upstream of these promoters may be the target for ComA-dependent transcriptional activation.
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PMID:Transcription initiation region of the srfA operon, which is controlled by the comP-comA signal transduction system in Bacillus subtilis. 171 56


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