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)

The expression of a native form of the foot-and-mouth disease virus RNA polymerase was obtained. Two oligonucleotides of 66 base pairs were used to rebuild the 5' end of the gene and to introduce the first methionine codon. The expression of the active polymerase in E. coli was achieved by inserting the gene before the tac promoter of the pKK223-3 plasmid.
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PMID:Expression of an active foot-and-mouth disease virus RNA polymerase in Escherichia coli. 166

Structural resemblance of the human Alu family with a subset of vertebrate tRNAs was detected. Of four tRNAs, tRNA(Lys), tRNA(Ile), tRNA(Thr), and tRNA(Tyr), which comprise a structurally related family, tRNA(Lys) is the most similar to the human Alu family. Of the 76 nucleotides in lysine tRNA (including the CCA tail), 47 are similar to the human Alu family (60% identity). The secondary structure of the human Alu family corresponding to the D-stem and anticodon stem regions of the tRNA appears to be very stable. The 7SL RNA, which is a progenitor of the human Alu family, is less similar to lysine tRNA (55% identity), and the secondary structure of the 7SL RNA folded like a tRNA is less stable than that of the human Alu family folded likewise. Insertion of the tetranucleotide GAGA, which is an important region of the second promoter for RNA polymerase III in the Alu sequence, occurred during the deletion and ligation process to generate the Alu sequence from the parental 7SL RNA. These results suggest that the human Alu family was generated from the 7SL RNA by deletion, insertion, and mutations, which thus modified the ancestral 7SL sequence so that it could form a structure more closely resembling lysine tRNA. The similarities of several short interspersed sequences to the lysine tRNA were also examined. The Galago type 2 family, which was reported to be derived from a methionine initiator tRNA, was also found to be similar to the lysine tRNA. Thus lysine tRNA-like structures are widespread in genomes in the animal kingdom. The implications of these findings in relation to the mechanism of generation of the human Alu family and its possible functions are discussed.
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PMID:Transfer RNA-like structure of the human Alu family: implications of its generation mechanism and possible functions. 170 38

The central part of bacteriophage T4 baseplate is built of several proteins which are present in only a few copies per phage particle. Only some of these minor baseplate components have been identified previously as distinct protein species by biochemical analysis. We have used the bacteriophage T7 RNA polymerase expression system to identify and overexpress the minor baseplate proteins. The products of genes 25, 26 and 51 were identified on the autoradiographs after selective labelling with [35]S methionine. The overexpression of gene 25 and 51 products was high enough to make possible undertaking their purification and studies of their properties.
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PMID:Expression of bacteriophage T4 minor baseplate proteins in the bacteriophage T7 promoter/RNA polymerase expression system. 179 11

Two-dimensional gel electrophoresis was used to demonstrate the synthesis of approximately 65 [35S]-methionine-labelled soluble proteins between 0 and 10 min after the start of germination, of approximately 210 proteins at 10-20 min, and of approximately 260 proteins during vegetative growth of Bacillus subtilis. When actinomycin D and [35S]-methionine were administered at the onset of germination and the proteins synthesized during the subsequent 15 min were analyzed, two proteins were detected, and were designated protein I and protein II. Immunoblot analysis with an antiserum raised against RNA polymerase from Escherichia coli demonstrated that protein II corresponded to the sigma A factor of Bacillus subtilis. Thus, the sigma A factor is synthesized during early germination of Bacillus subtilis in the presence of actinomycin D.
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PMID:Two-dimensional polyacrylamide gel electrophoresis of proteins synthesized during early germination of Bacillus subtilis 168 in the presence of actinomycin D. 181 3

A cell-free system containing rotavirus subviral particles (SVPs), rabbit reticulocyte lysate, and [35S]methionine was programmed to synthesize viral protein by the addition of messenger RNA (mRNA). Electrophoretic analysis of single-shelled particles recovered from the system by CsCl centrifugation showed that newly made VP6 assembled into the particles in vitro. Electrophoretic analysis also showed that the newly made VP6 which bound to single-shelled particles in vitro was arranged in trimeric units. To identify the domain within VP6 essential for assembly into single-shelled particles, amino- and carboxyl-truncated species of VP6 were assayed for the ability to associate with single-shelled particles in the cell-free system. The truncated proteins were introduced into the system by adding VP6 mRNAs containing 5'- and 3'-terminal deletions. The terminally deleted mRNAs were prepared using SP6 RNA polymerase to transcribe portions of cDNAs of the rotavirus SA11 gene for VP6 (gene 6). Analysis of the ability of truncated VP6 to associate with single-shelled particles showed that a domain essential for assembly resides at the carboxyl-end of VP6 located between amino acid residues 251 and 397. To contrast the domain for assembly with that for trimerization, amino- and carboxyl-truncated species of VP6 were also examined by electrophoretic assay for the ability to trimerize in vitro. The results showed that the domain for trimerization resides near the center of VP6 located between amino acid residues 105 and 328. Comparison of the domains for assembly and trimerization showed that they are unique but may overlap. The fact that some truncated species of VP6, although able to bind to single-shelled particles were unable to form trimers in vitro, suggests that trimerization of VP6 is not prerequisite for the assembly of single-shelled particles.
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PMID:Rotavirus morphogenesis: domains in the major inner capsid protein essential for binding to single-shelled particles and for trimerization. 184 94

Upon infection of animal cells by Sindbis virus, four nonstructural (ns) proteins, termed nsP1-4 in order from 5' to 3' in the genome, are produced by posttranslational cleavage of a polyprotein. nsP4 is believed to function as the viral RNA polymerase and is short-lived in infected cells. We show here that nsP4 produced in reticulocyte lysates is degraded by the N-end rule pathway, one ubiquitin-dependent proteolytic pathway. When the N-terminal residue of nsP4 is changed by mutagenesis, the metabolic stabilities of the mutant nsP4s follow the N-end rule, in that the half-life of nsP4 bearing different N-terminal residues decreases in the order Met greater than Ala greater than Tyr greater than or equal to Phe greater than Agr. Addition of dipeptides Tyr-Ala, Trp-Ala, or Phe-Ala to the translation mixture inhibits degradation of Tyr-nsP4 and Phe-nsP4, but not of Arg-nsP4. Conversely, dipeptides His-Ala, Arg-Ala, and Lys-Ala inhibit the degradation of Arg-nsP4 but not of Tyr-nsP4 or Phe-nsP4. We found that there is no lysine in the first 43 residues of nsP4 that is required for its degradation, indicating that a more distal lysine functions as the ubiquitin acceptor. Strict control of nsP4 concentration appears to be an important aspect of the virus life cycle, since the concentration of nsP4 in infected cells is regulated at three levels: translation of nsP4 requires read-through of an opal termination codon such that it is underproduced; differential processing by the virus-encoded proteinase results in temporal regulation of nsP4; and nsP4 itself is a short-lived protein degraded by the ubiquitin-dependent N-end rule pathway.
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PMID:Sindbis virus RNA polymerase is degraded by the N-end rule pathway. 192 57

Two open reading frames on a 3.7-kb BglII-XbaI fragment which encodes the Staphylococcus aureus cadA cadmium (and zinc) resistance determinant of plasmid pI258 were identified (G. Nucifora, L. Chu, T. K. Misra, and S. Silver, Proc. Natl. Acad. Sci. USA 86:3544-3548, 1989). The [35S]methionine-labelled protein products of the 727-amino-acid CadA ATPase and of the 122-amino-acid CadC polypeptide in Escherichia coli were identified by using the T7 RNA polymerase-promoter expression system. A truncated CadA polypeptide (402 amino acids) did not confer resistance in S. aureus but was expressed in E. coli under control of the T7 RNA polymerase-promoter. Removal of 678 nucleotides from the 5' end of the published sequence (which includes the cadA promoter) abolished resistance to cadmium, whereas a 146-nucleotide-shorter deletion was without effect. The cadC gene is needed in addition to cadA for full resistance to cadmium in S. aureus and Bacillus subtilis. cadC functions both in cis and in trans.
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PMID:A second gene in the Staphylococcus aureus cadA cadmium resistance determinant of plasmid pI258. 193 59

Human interleukin-6 or B-cell stimulatory factor-2 is a cytokine involved in acute phase and immune response. Cloning of cDNA for human interleukin-6 in the pT7.7 expression plasmid under the control of a bacteriophage T7 RNA polymerase promoter system allows rapid production of the cytokine in Escherichia coli. Upon cell induction with isopropyl thiogalactopyranoside, recombinant human interleukin-6 is overexpressed and forms insoluble inclusion bodies. Solubilization of the protein with 6 M guanidine hydrochloride and refolding in the presence of a reduction/oxidation system results in a quantitative recovery of recombinant human interleukin-6. This material is already 70% pure and can be further purified to homogeneity with a single passage over a weak anionic-exchange column. Extended structural characterization of the purified protein by electrospray mass spectrometry, automated Edman degradation and peptide mapping by high-pressure liquid chromatography/fast-atom-bombardment mass spectrometry demonstrates that recombinant human interleukin-6 is identical to the natural protein both in amino acid sequence and S-S bridge content. However, it contains a minor component accounting for about 20% of the entire translated protein which exhibits a Met-Ala dipeptide extension at the N-terminus. Purified recombinant human interleukin-6 is biologically active because it is able to induce at least 70-fold the human C-reactive promoter transfected in human hepatoma Hep 3B cells and is stable for several months in 10% glycerol at 4 degrees C. The expression system described in the present work has the main advantage of producing a high yield of recombinant human interleukin-6 (about 25 mg/l) combined with a very simple purification scheme.
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PMID:Single-step purification and structural characterization of human interleukin-6 produced in Escherichia coli from a T7 RNA polymerase expression vector. 205 Jan 35

Identification and selective labeling of the melibiose permease and alpha-galactosidase in Escherichia coli, which are encoded by the melB and melA genes, respectively, have been accomplished by selectively labeling the two gene products with a T7 RNA polymerase expression system [Tabor, S., & Richardson, C. C. (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 1074]. Following generation of a novel EcoRI restriction site in the intergenic sequence between the two genes of the mel operon by oligonucleotide-directed, site-specific mutagenesis, melA and melB were separately inserted into plasmid pT7-6 of the T7 expression system. Expression of melB was markedly enhanced by placing a strong, synthetic ribosome binding site at an optimal distance upstream from the initiation codon of melB. Expression of cloned gene products was characterized functionally and by performing autoradiographic analysis on total cell, inner membrane, and cytoplasmic proteins from cells pulse labeled with (35S)methionine in the presence of rifampicin and resolved by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The results first confirm that alpha-galactosidase is a cytoplasmic protein with an Mr of 50K; in contrast, the membrane-bound melibiose permease is identified as a protein with an apparent Mr of 39K, a value significantly higher than that of 30K previously suggested [Hanatani et al. (1984) J. Biol. Chem. 259, 1807].
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PMID:Melibiose permease and alpha-galactosidase of Escherichia coli: identification by selective labeling using a T7 RNA polymerase/promoter expression system. 215 86

The human gastric (H+ + K+)-ATPase gene (15 kilobases) was cloned, and its nucleotide sequence was determined. The gene has 22 exons and codes a protein of 1,035 residues including the initiator methionine (Mr = 114,047). A conserved lysine-rich sequence with inserted glycine residues was found near the amino terminus of the enzyme. The phosphorylation site and pyridoxal 5'-phosphate- and fluorescein isothiocyanate-binding residues found in the rat and pig enzymes are also conserved in the human enzyme. The positions of introns in the human (H+ + K+)-ATPase gene are essentially the same as those in the human (Na+ + K+)-ATPase alpha and alpha III subunits; but the first introns of the two enzymes are difficult to align, and unlike in the (Na+ + K+)-ATPase gene, the sixth exon in the (H+ + K+)-ATPase gene is not separated by an intron. Furthermore, the ninth intron is located two bases upstream of the position for the corresponding intron of the (Na+ + K+)-ATPase alpha III subunit. The similarity in organization of these two ATPase genes and the homology in the primary structures of their proteins (approximately 60%) suggest that these two genes were derived from a common ancestral gene. However, the 5'-flanking regions of the genes for (H+ + K+)-ATPase and the (Na+ + K+)-ATPase alpha (+) subunit show no apparent sequence homology, indicating that their transcriptions are regulated differently. The control region of the fast-twitch sarcoplasmic reticulum Ca2(+)-ATPase gene also showed no sequence homology to that of (H+ + K+)-ATPase. The 5'-flanking region of the (H+ + K+)-ATPase gene contains potential binding sites for RNA polymerase II and various transcriptional regulation factors and several direct and inverted repeat sequences which may be important for specific and controlled expression of the gene in gastric parietal cells. There are two polyadenylation signals in the 3'-flanking region of the (H+ + K+)-ATPase gene, but the sequence of this region shows no homology to those of the corresponding regions of the genes for the (Na+ + K+)-ATPase alpha and alpha III subunits.
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PMID:Human gastric (H+ + K+)-ATPase gene. Similarity to (Na+ + K+)-ATPase genes in exon/intron organization but difference in control region. 216 Sep 52

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