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)

We have cloned the 1.9 kb EcoRV-BglII DNA fragment with T4 genes 51, 26, and 25 into the expression plasmid pT7-5 carrying a T7 promoter. The resulting recombinant plasmid, pRR5-3, contained T4 genes 26 and 25 in the correct orientation for expression. We expressed these genes using the T7 RNA polymerase/promoter system and the synthesis of three polypeptides with the molecular masses of approximately 24, 15, and 8-9 kDa was observed. Expression of genes from the subcloned DNA fragments and from the fragments carrying deletions was studied as well and the 15 kDa protein appeared to be the product of gene 25, while 24 kDa and 8-9 kDa proteins were identified as products of gene 26. The 8-9 kDa protein was shown to be expressed from the end region of gene 26. Having analysed the proteins expressed from the fragments carrying fusion of genes 26 and 25 we supposed two products of gene 26 to be encoded by the same open reading frame.
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PMID:[Gene 26 of bacteriophage T4 basal plate. I. Two expression products of the cloned gene]. 236 88

We describe the cloning of an ntrC gene of Agrobacterium tumefaciens C58 by interspecific complementation of an Escherichia coli ntrC mutant. Restriction mapping and Southern blot analysis of the complementing clone identified a 1.7-kb EcoRI-PvuII DNA fragment whose sequence was determined. Analysis of this sequence revealed coding regions corresponding to a complete ntrC gene and the C-terminal region of an ntrB gene. Amino acid sequence comparisons of A. tumefaciens NTRC protein with NTRC sequences from Rhizobium meliloti, Bradyrhizobium sp. (Parasponia), Klebsiella pneumoniae, E. coli, and Salmonella typhimurium show strong sequence conservation supporting DNA hybridization data, demonstrating strong evolutionary homology among ntrC genes of Rhizobiaceae. The C58 NTRC protein has been identified, by 35S-labeling, in a T7 RNA polymerase (pT7-7) expression vector system.
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PMID:Identification, cloning, and sequence analysis of the nitrogen regulation gene ntrC of Agrobacterium tumefaciens C58. 252 Aug 24

The murine adipocyte lipid binding protein (ALBP) has been cloned into Escherichia coli, purified from expressing cultures, and its ligand binding and phosphorylation properties studied. In the cloning strategy, the recombinant, pT7-5 rALBP, was transformed into E. coli strain K38 harboring plasmid pGP1-2 which directs the synthesis of T7 RNA polymerase. Upon shifting the temperature from 30 to 42 degrees C to induce T7 RNA polymerase expression, the 14.6-kDa recombinant ALBP (rALBP) was expressed for approximately 2 h and accumulated to about 1% of total E. coli protein. The recombinant ALBP was soluble in E. coli extracts and resistant to bacterial proteolysis. A procedure for purifying rALBP was developed utilizing immuno-chemical detection based upon reactivity with anti-murine ALBP antiserum. A combination of acidic ammonium sulfate fractionation, gel permeation chromatography, and carboxymethyl ion-exchange high performance liquid chromatography separation was used to prepare homogeneous rALBP. Sequence analysis of rALBP indicated that the initiating methionine residue had been removed and the amino-terminal cysteine residue was not blocked. Purified rALBP exhibited stoichiometric, saturable binding of oleic acid (n = 1.0, K0.5 approximately 100 microM) and retinoic acid (n = 1.0, K0.5 approximately 170 microM). Incubation of rALBP with wheat germ agglutinin-purified insulin receptor, ATP, and 100 nM insulin resulted in a 5-fold stimulation of rALBP phosphorylation above the basal state. Kinetic analysis of rALBP phosphorylation by the 3T3-L1 insulin receptor kinase yielded a Michaelis constant (Km) of 50 microM and a maximal velocity of 1 mol of rALBP phosphorylated/min/mol insulin binding sites. Phosphoamino acid analysis indicated that phosphorylation occurred upon tyrosine. These results indicate that murine ALBP has been cloned and expressed in E. coli, purified to homogeneity, and is a substrate for the insulin receptor tyrosyl kinase in vitro.
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PMID:Cloning of murine adipocyte lipid binding protein in Escherichia coli. Its purification, ligand binding properties, and phosphorylation by the adipocyte insulin receptor. 268 57

A transcription vector, pT7: TKII, was constructed by a novel application of the polymerase chain reaction. Chimeric oligodeoxynucleotides were used to direct the synthesis of a DNA fragment which consisted of a truncated bacteriophage T7 promoter element fused to the vaccinia virus (VV) thymidine kinase gene (tk). This fragment was cloned into a pUC118 plasmid and sequenced to ensure no mutations had occurred during its synthesis. When linearized at the 3' end of the VV tk gene at the BamHI site located in the polylinker region of the vector, pT7:TKII was efficiently transcribed by T7 RNA polymerase into a 595 nucleotide transcript whose 5' end was identical to that found on authentic nascent VV tk mRNA. When translated in a rabbit reticulocyte lysate system, the synthetic VV tk RNA was shown to be biologically active in that it directed the synthesis of a 20-kDa protein which assembled into an enzymatically active 80-kDa tetrameric complex which was indistinguishable from VV thymidine kinase (TK) enzyme isolated from VV-infected cells. The pT7:TKII vector provides a powerful approach with which: (i) to investigate the translational and posttranslational regulation of the VV tk gene; (ii) to use directed genetics to identify potential cis-acting regulatory sequences or structures present within the VV tk RNA; and (iii) to apply protein engineering procedures to identify the catalytic, allosteric and subunit interactive domains of the VV TK enzyme. As an example, the translational effects of adding a m7G cap structure to the pT7:TKII-derived VV tk RNA are presented.
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PMID:Expression vector pT7:TKII for the synthesis of authentic biologically active RNA encoding vaccinia virus thymidine kinase. 274 89

A 28-kilodalton protein has been suggested to be the amino-terminal protein cleavage product of the putative coronavirus RNA polymerase (gene A) (M.R. Denison and S. Perlman, Virology 157:565-568, 1987). To elucidate the structure and mechanism of synthesis of this protein, the nucleotide sequence of the 5' 2.0 kilobases of the coronavirus mouse hepatitis virus strain JHM genome was determined. This sequence contains a single, long open reading frame and predicts a highly basic amino-terminal region. Cell-free translation of RNAs transcribed in vitro from DNAs containing gene A sequences in pT7 vectors yielded proteins initiated from the 5'-most optimal initiation codon at position 215 from the 5' end of the genome. The sequence preceding this initiation codon predicts the presence of a stable hairpin loop structure. The presence of an RNA secondary structure at the 5' end of the RNA genome is supported by the observation that gene A sequences were more efficiently translated in vitro when upstream noncoding sequences were removed. By comparing the translation products of virion genomic RNA and in vitro transcribed RNAs, we established that our clones encompassing the 5'-end mouse hepatitis virus genomic RNA encode the 28-kilodalton N-terminal cleavage product of the gene A protein. Possible cleavage sites for this protein are proposed.
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PMID:Sequence and translation of the murine coronavirus 5'-end genomic RNA reveals the N-terminal structure of the putative RNA polymerase. 282 26

Citrate synthase is a key enzyme of the Krebs tricarboxylic acid cycle and catalyzes the stereospecific synthesis of citrate from acetyl coenzyme A and oxalacetate. The amino acid sequence and three-dimensional structure of pig citrate synthase dimers are known, and regions of the enzyme involved in substrate binding and catalysis have been identified. A cloned complementary DNA sequence encoding pig citrate synthase has been isolated from a pig kidney lambda gt11 cDNA library after screening with a synthetic oligonucleotide probe. The complete nucleotide sequence of the 1.5-kilobase cDNA was determined. The coding region consists of 1395 base pairs and confirms the amino acid sequence of purified pig citrate synthase. The derived amino acid sequence of pig citrate synthase predicts the presence of a 27 amino acid N-terminal leader peptide whose sequence is consistent with the sequences of other mitochondrial signal peptides. A conserved amino acid sequence in the mitochondrial leader peptides of pig citrate synthase and yeast mitochondrial citrate synthase was identified. To express the pig citrate synthase cDNA in Escherichia coli, we employed the inducible T7 RNA polymerase/promoter double plasmid expression vectors pGP1-2 and pT7-7 [Tabor, S., & Richardson, C. C. (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 1074-1078]. The pig citrate synthase cDNA was modified to delete the N-terminal leader sequence; then by use of a synthetic oligonucleotide linker, the modified cDNA was cloned into pT7-7 immediately following the initiator Met. A glutamate-requiring (citrate synthase deficient), recA- E. coli mutant, DEK15, was transformed with pGP1-2 and then pT7-7PCS. pT7-7PCS complemented the E. coli gltA mutation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isolation, nucleotide sequence, and expression of a cDNA encoding pig citrate synthase. 304 87

The function of the 24-kilodalton (24K) protein encoded by cowpea mosaic virus (CPMV) has been studied by constructing a bacterial expression plasmid that contained a cloned chimeric segment consisting of partial DNA copies of CPMV M-RNA (including sequences coding for both capsid proteins) and B-RNA (including sequences coding for the 24K protein). Viral sequences were transcribed from the phage T7 promoter phi 10 of plasmid pT7-6 using T7-RNA polymerase expressed from plasmid pGP1-2 present in the same cells. Upon inducing the synthesis of T7-RNA polymerase several new polypeptides that contained CPMV-specific sequences were expressed, as demonstrated by immunoprecipitation and immunoblotting. Furthermore a proteolytic activity was detected in induced cells which cleaved the viral protein sequences specifically at two glutamine-glycine sites. One of the cleavage products represented capsid protein VP23. The proteolytic activity was absent when an 87-bp deletion was introduced in the coding region for the 24K protein, indicating that this protein represented the protease involved in the proteolytic processing at those specific sites.
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PMID:Proteolytic activity of the cowpea mosaic virus encoded 24K protein synthesized in Escherichia coli. 330 14

Dengue virus type 2 (DEN-2), a member of the Flaviviridae family, has a positive-strand RNA genome, 10,723 nucleotides (nt) in length and encoding a single polyprotein precursor consisting of 3391 amino acids (aa). In order to construct a full-length cDNA clone, the viral genome was cloned into 5' (nt 1-2203 under the control of the T7 promoter (pT7)) and 3' (nt 2203-10,723) constructs. A full-length DEN-2 cDNA under pT7 control was assembled in vitro after excising the two cDNA inserts from the 5' and 3' constructs, and joining them with T4 DNA ligase. The RNA produced by in vitro transcription of the cDNA using T7 RNA polymerase was infectious, as shown by transfection of permissive BHK-21 and Vero cells, and propagation of the virus particles released into the culture media. The virus particles stably maintained the conservative mutation introduced into the 5' construct, and the cells infected with the infectious RNA-derived virus synthesized virus-specific DEN-2 antigens, as shown by immunofluorescence and immunoprecipitations. The full-length infectious clone for DEN-2 should be useful for the study of molecular mechanisms involved in viral RNA replication and virus assembly.
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PMID:Synthesis and characterization of an infectious dengue virus type-2 RNA genome (New Guinea C strain). 755 26

We describe the construction, expression characteristics and some applications of a versatile dual-promoter expression plasmid for heterologous gene expression in Escherichia coli which contains both lambda pL and PT7 promoters. Furthermore, the plasmid is optimized to allow the expression of mature coding sequences without compromising the strength of the highly efficient PT7 or of the T7g10 ribosome-binding site. The effect of the the naturally occurring RNA loops at both the 5' and 3' ends of the T7g10 mRNA on expression was also examined. A double T7 RNA polymerase transcription terminator was inserted to ensure more reliable transcription termination and a higher expression level of the preceding gene. Further improvements involve a clockwise orientation of the promoters to minimize read-through transcription from plasmid promoters, a largely extended multiple cloning site, an antisense phage T3 promoter and a phage f1-derived, single-stranded replication origin. Variants of this plasmid allow for the production of fusion proteins with part of T7g10, a hexahistidine peptide and an enterokinase recognition site. The potential of these expression vectors is demonstrated by comparing the expression levels of a number of mammalian cytokines (human tumor necrosis factor, human immune interferon, human and murine interleukins 2, murine interleukin 4 and murine fibroblast interferon), using these expression plasmids.
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PMID:Versatile, multi-featured plasmids for high-level expression of heterologous genes in Escherichia coli: overproduction of human and murine cytokines. 759 Mar 29

Cleavage activation of the Sendai virus (Fushimi strain) fusion (F) protein was analyzed by site-directed mutagenesis of the amino acids proximal to the highly conserved fusion peptide. In addition, the functional properties of the wild-type and mutant proteins were examined to determine their ability to elicit the formation of syncytia when co-expressed with the hemagglutinin-neuraminidase (HN) glycoprotein. Viral genes were expressed from recombinant T7 transcription vectors (pT7/T3 plasmids) containing F or HN genes, after transfection into cells previously infected with a recombinant vaccinia virus expressing T7 RNA polymerase (vTF7-3). The wild-type F protein sequence (112VPQSRF) which contains a monobasic cleavage activation site was altered to include a tribasic, 112VPRKRF (mB3), or a pentabasic sequence, 112RRRKRF (mB5) adjacent to the fusion peptide. Although addition of basic residues to the normal protein sequence resulted in enhanced cleavage activation of the mB3 and mB5 proteins, only the mB5 protein was able to induce syncytia formation in CV-1 or HeLa T4 cells. Further analysis by the introduction of acidic residues upstream of the cleavage activation site was performed to determine whether increased hydrophilicity of the surrounding residues might contribute to cleavage activation. The mutants examined, mAcB1 (104NDDEENAGVPQSRF), mAcB3 (104NDDEENAGVPRKRF), and mAcB5 (104NDDEENAGRRRKRF) all contained DEE in replacement for the wild-type TTQ sequence (104NDTTQNAGVPQSRF). Analysis showed that only mAcB3 was efficiently cleaved by the endogenous cellular proteases, while mAcB1 was minimally cleaved, and mAcB5 not at all. Consequently, only the mAcB3 mutant was able to support fusion of CV-1 or HeLa T4 cells when co-expressed with HN.
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PMID:Role of basic residues in the proteolytic activation of Sendai virus fusion glycoprotein. 762 24

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