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 isolated milligram quantities of active single chain antibody from the insoluble fraction of Escherichia coli cultures. The system relies on high-level expression from a T7 RNA polymerase-directed gene construct, 8 M urea to dissolve the desired protein out of the insoluble fraction, presumably inclusion bodies, isolation and concentration of the desired protein by nickel chelate [IDA-Ni(II)] immobilized metal-ion affinity chromatography (IMAC), and removal of urea from column fractions by dialysis directly into storage buffer. Routinely, about 50% of the protein loaded onto an IMAC column is recovered as single chain Fv at a concentration of approximately 0.7 mg/mL. As little as 3 days are required to obtain 10 mg of final product when starting with an overnight inoculum.
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PMID:Rapid, high-yield recovery of a recombinant digoxin binding single chain Fv from Escherichia coli. 776 85

The putative reovirus RNA polymerase, protein lambda 3, was characterized using antiserum prepared against a TrpE-lambda 3 fusion protein synthesized in Escherichia coli. Immunofluorescence microscopy showed that lambda 3 accumulated in perinuclear inclusion bodies in reovirus-infected cells. Analysis of lambda 3 accumulation in infected cells indicates that, once synthesized, lambda 3 is quite stable throughout the course of infection. Anti-lambda 3 serum did not immunoprecipitate virions, core particles or iodinated surface proteins of either virions or cores. These results indicate that lambda 3 is located in the inner part of the core. Experiments involving urea denaturation of purified reovirus cores indicate that lambda 3 cannot be selectively removed from the core without total denaturation of the core structure. When the dsRNA genome was eliminated from the core, lambda 3 remained associated with the other viral proteins in the core. Thus, lambda 3 appears to be a stable, structural component of the reovirus core, not bound to genomic dsRNA or free in soluble form inside the core.
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PMID:Characterization and structural localization of the reovirus lambda 3 protein. 783 5

Rabbit fast skeletal troponin I (TnIf) cDNA was expressed using two Escherichia coli expression vectors, pRE1 containing the bacteriophage lambda pL promoter and pAED4, a T7 RNA polymerase-based vector. Although both vectors expressed TnIf, overexpression of the target protein was achieved with pAED4. The effect of several parameters such as culture condition, compatible host strain, and inhibition of protein synthesis by rifampicin on the expression of TnIf was investigated. The overexpressed target protein synthesized during a brief induction period of only 2 h was conveniently purified from inclusion bodies by a simple and rapid procedure involving extraction with urea, ultracentrifugation, DE-52 column chromatography, and gel filtration. About 50-75 mg of highly purified TnIf was obtained per liter E. coli culture by this method, which does not involve time-consuming multistep procedures such as affinity and ion exchange chromatography as previously reported in the literature. The isolated unfused protein is stable and is indistinguishable from native protein in all biological parameters examined. The parameters optimized in this report for overexpression of TnIf may also be applicable for other eukaryotic proteins.
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PMID:Overexpression and rapid purification of rabbit fast skeletal troponin I from Escherichia coli: effect of different promoters, host strains, and culture conditions. 785 31

A murine antibody single-chain Fv (scFv) fragment carrying five C-terminal histidine residues preceded by a cysteine residue and a marker peptide was expressed in Escherichia coli. Its variable heavy (VH) and light (VL) domains are derived from the mouse monoclonal antibody mAb215, which is specific for the largest subunit of RNA polymerase II of Drosophila melanogaster. ScFv' monomers, covalently linked (scFv')2 and non-covalent dimers, as well as aggregated antibody fragments, were isolated from an E. coli cell paste by immobilized metal affinity chromatography in 6 M urea followed by a renaturation procedure that does not use any sulfhydryl agents. In a final step, the components were separated by size exclusion chromatography. All the recombinant antibody fractions demonstrated high antigen-binding activity and specificity as shown by ELISA and Western blot analysis. Affinity measurements carried out by competitive immunoassays showed that covalently linked (scFv')2 have binding constants quite close to those of the parental monoclonal antibodies and four-fold higher than scFv' monomers. ScFv derivatives, specifically biotinylated through the free sulfhydryl group, recognize the corresponding antigen in ELISA and Western blot analysis, thus demonstrating the possibility of using chemically modified scFv antibodies for immunodetection.
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PMID:Recombinant single-chain Fv fragments carrying C-terminal cysteine residues: production of bivalent and biotinylated miniantibodies. 793 96

The wheat kernel CM16 protein, a subunit of the heterotetrameric insect alpha-amylase inhibitor that has been involved in the technological quality of wheat-products, was produced in Escherichia coli. Cloning of the cDNA part encoding the mature protein in a pET expression plasmid, under the control of a promoter for the bacteriophage T7 RNA polymerase, allows the synthesis of large amounts of the CM16 protein in the bacteria. Upon induction with isopropyl thiogalactopyranoside the recombinant protein accumulates in insoluble inclusion bodies. Solubilization with 6 M urea containing 0.5 mM dithiothreitol, followed by slow elimination of the denaturing agents by step dialysis, results in a significant recovery of the recombinant protein in a soluble, monomeric form. Characterization of the protein was done by automated Edman degradation and total amino acid determination. The recombinant protein in comparison with the one isolated from wheat exhibits a Met extension at the N-terminus that was introduced in the construction for translation initiation. The CM16 protein produced in this manner has the advantage over wheat purified protein of not being contaminated with other proteins from the same family and constitutes adequate material for further analysis of the technological properties of the protein in wheat-derived products.
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PMID:Expression of a cDNA encoding the wheat CM16 protein in Escherichia coli. 795 Mar 64

It was discovered that alpha-tocopherol binding with isolated chromatin is specific only when fraction of tocopherol-binding proteins from a nuclear extract with 1% triton X-100 is present. During the chromatography of chromatin incubated with [H] alpha-tocopherol on hydroxyapatite a specific binding activity was present only in fraction eluted with 2M NaCl + 5M urea. Quantitative changes in the protein content of this fraction during a hypovitaminosis are found. It is shown that vitamin E can effect the RNA polymerase activity of a nuclear matrix in the in vitro assays. It is suggested that the presence of tocopherol-binding proteins of chromatin in necessary for such an action of alpha-tocopherol.
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PMID:[Chromatin proteins binding vitamin E]. 797 44

The apcC gene from Mastigocladus laminosus encodes the linker polypeptide LC8.9 located in the phycobilisome core. A T7 RNA polymerase expression system was used to express the linker polypeptide LC8.9 from M. laminosus in Escherichia coli. The apcC gene product was expressed as an inclusion body which was solubilized in a buffer containing 8M urea. Final purification was achieved by ion exchange chromatography on Fractogel TSK CM 650 (S). In addition, a method for preparative isolation of the LC8.9 linker polypeptide from M. laminosus by reverse phase chromatography is presented. Both LC8.9 isolated from M. laminosus and overexpressed in E. coli were capable of reconstituting the complex (alpha beta)3APCLC8.9. The reconstituted complex was identical to preparations isolated from M. laminosus in terms of polypeptide composition, absorption and fluorescence emission spectroscopy.
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PMID:Reconstitution of the core complex (alpha beta)3APCLC8.9 of the phycobilisome from Mastigocladus laminosus using the Lc8.9 linker polypeptide overexpressed in Escherichia coli. 821 94

In the free-living diazotroph Klebsiella pneumoniae, the NifA protein is required for transcription of all nif (nitrogen fixation) operons except the regulatory nifLA operon itself. NifA activates transcription of nif operons by the alternative holoenzyme form of RNA polymerase, sigma 54 holoenzyme. In vivo, NifL is known to antagonize the action of NifA in the presence of molecular oxygen or combined nitrogen. We now demonstrate inhibition by NifL in vitro in both a coupled transcription-translation system and a purified transcription system. Crude cell extracts containing NifL inhibit NifA activity in the coupled system, as does NifL that has been solubilized with urea and allowed to refold. Inhibition is specific to NifA in that it does not affect activation by NtrC, a transcriptional activator homologous to NifA, or transcription by sigma 70 holoenzyme. Renatured NifL also inhibits transcriptional activation by a maltose-binding protein fusion to NifA in a purified transcription system, indicating that no protein factor other than NifL is required. Since inhibition in the purified system persists anaerobically, our NifL preparation does not sense molecular oxygen directly.
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PMID:In vitro activity of NifL, a signal transduction protein for biological nitrogen fixation. 824 38

From sequence comparisons between the tobramovirus genomes an open reading frame (ORF-X) potentially encoding a small, positively charged protein (33- to 45-amino-acids long) was found to overlap the immediate 3' and 5' sides of the transport protein gene and coat protein gene, respectively. In vitro translation of the monocistronic artificial transcripts generated with T7 RNA polymerase yielded a protein of M(r) 4000 (p4) and an unexpected trypsin-sensitive complex of M(r) 54,000 that was resistant to reduction with 2-mercaptoethanol but could be dissociated by 8 M urea. Assembly of this complex was inhibited completely by site-directed mutagenesis within a conserved, positively charged 5-amino-acid long segment of the ORF-X protein. After centrifugation in low salt buffer the 54-kDa complex remained mostly associated with ribosomes. Apparently this complex represents a specific aggregate of the p4 product of ORF-X with a protein of approximate M(r) 50,000 that is a component of the translation apparatus.
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PMID:A novel open reading frame in tobacco mosaic virus genome coding for a putative small, positively charged protein. 828 38

The lipase gene from Pseudomonas aeruginosa TE3285 is followed by another gene, lipB. The lipase gene was expressed in Escherichia coli BL21(DE3)pLysS using the T7 RNA polymerase expression system. The mature lipase was accumulated as inclusion bodies at 42% of the total cell proteins. The inclusion bodies were solubilized with 8 M urea, but lipase activity was not detected in the solubilized preparation containing 85% lipase protein even after removing urea by dialysis. The lipB gene, positioned downstream of the lipase gene and thought to be necessary for the expression of the lipase gene, was expressed in Escherichia coli JM109 as a fusion with the glutathione transferase gene from Schistosoma japonicum. The fusion protein was partially purified on glutathione-agarose beads to 36% purity. Incubated with the fusion protein at a molar ratio of 1:1 at 4 degrees C for 24 h, the solubilized lipase showed lipase activity of about a tenth that of the purified lipase prepared from Pseudomonas aeruginosa TE3285. Magnesium ions and ATP were not essential but increased the activation. When the fusion protein was treated with thrombin to release the glutathione transferase part, it retained its activity. The lipase activation with lipB protein probably proceeds to form a 1:1 complex with the inactive, solubilized lipase protein but by a different mode from known chaperones.
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PMID:Lipase from Pseudomonas aeruginosa. Production in Escherichia coli and activation in vitro with a protein from the downstream gene. 834 92

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