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 segment Asp1064-Lys1073 in the beta subunit of Escherichia coli RNA polymerase is evolutionarily conserved and is located near the "5' face" of the nucleotide binding pocket as was shown by affinity labeling with priming substrates (Grachev, M. A., Lukhtamov, E. A., Mustaev, A. A., Zaychikov, E. F., Abdukayumov, M. N., Rabinov, I. V., Richter, V. I., Skoblov, Y. S., and Chistyakov, P. G. (1989) Eur. J. Biochem. 180, 577-585). We engineered single Xaa-->Ala or Ala-->Ser substitutions of eight evolutionarily conserved amino acids in this segment as well as a multiple alanine (KRNK) substitution of four of these residues. The KRNK mutation as well as four of the single substitutions were dominant lethal, two of the single mutations were recessive lethal, and two were viable. RNA polymerase bearing the dominant mutations was prepared for biochemical study by in vitro reconstitution from subunits. All of the mutant enzymes formed stable, specific promoter complexes, capable of initiating RNA synthesis. However, the KRNK polymerase was totally blocked in initiation-to-elongation transition, whereas the four point mutants displayed allele-specific changes in promoter clearance rate. Each of the four mutations changed, in a specific way, both the pattern of short oligomers generated in abortive initiation and the pattern of RNA polymerase pausing during elongation. Thus, the mutations appear to distort but not destroy the active center and to alter, in allele-specific manner, the coupling between the catalytic reaction and RNA polymerase propagation along the template.
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PMID:Dominant lethal mutations near the 5' substrate binding site affect RNA polymerase propagation. 842 Sep 87

Lipocortin or annexin 1 is a calcium-dependent phospholipid-binding protein which probably acts as a glucocorticoid- regulated anti-inflammatory factor. cDNA for human lipocortin 1 was cloned in the pT7.7 expression plasmid under the control of the inducible bacteriophage T7 RNA polymerase promoter. Upon induction with isopropyl thio-beta-D-galactoside, large amounts of the protein were produced and accumulated in Escherichia coli in a soluble form. The recombinant protein was purified to homogeneity by means of two subsequent ion-exchange chromatographic steps. The final yield was about 30 mg/l bacterial culture. Electrospray mass spectrometric analysis of the purified protein demonstrated that the recombinant product corresponds to the native human lipocortin 1, without the initial methionine and with a free N-terminal alanine; tryptic peptide mapping by fast-atom-bombardment mass spectrometry showed that the recombinant protein contains cysteine residues at positions 263 and 324 with free thiol groups, whereas Cys270 and Cys343 are probably involved in an intrachain disulfide bridge. Recombinant human lipocortin 1 reduces the carrageenin-induced paw oedema in rat in vivo and inhibits porcine pancreatic phospholipase A2 activity in vitro; in both cases, a dose-related response is observed.
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PMID:Structural characterization of a biologically active human lipocortin 1 expressed in Escherichia coli. 842 44

The in vitro studies of three T7 RNA polymerase point mutants suggest that substitutions of Ala and Thr for Pro-563 and of Ser for Tyr-571 have little effect on the enzyme catalytic competence, but result in its inability to utilize the promoter. Both P563A and P563T mutants retain the promoter-binding ability, whereas the promoter affinity of the Y571S mutant drops drastically.
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PMID:Tyr-571 is involved in the T7 RNA polymerase binding to its promoter. 846 83

Random mutagenesis of the gene for bacteriophage T7 RNA polymerase was used to identify functionally essential amino acid residues of the enzyme. A two-plasmid system was developed that permits the straightforward isolation of T7 RNA polymerase mutants that had lost almost all catalytic activity. It was shown that substitutions of Thr and Ala for Pro at the position 563, Ser for Tyr571, Pro for Thr636, Asp for Tyr639 and of Cys for Phe646 resulted in inactivation of the enzyme. It is noteworthy that all these mutations are limited to two short regions that are highly conservative in sequences of monomeric RNA polymerases.
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PMID:Random mutagenesis of the gene for bacteriophage T7 RNA polymerase. 849 13

The N protein coded by bacteriophage lambda plays an essential role in the completion of lambda transcription by recognizing the boxB sequence in nascent transcripts and then aggregating with Escherichia coli RNA polymerase and four other E. coli proteins into an unstoppable transcription complex. In order to explore the functionality of N protein and the specific recognition between N and boxB, 14 amino acid positions near the amino-terminal end of N lambda were mutated extensively. The mutant proteins were scored for N function in vivo by a two-plasmid construct that visualizes readthrough transcription as lacZ expression in colonies of E. coli. Mutation was achieved by single TAG replacements, translated through suppression into 13 different amino acids, or by scrambling at assorted three-codon sets. Of the 14 amino acid positions tested (Tables 5 and 6), six remained functional with a wide variety of substitutions, while substitution was sometimes deleterious at one Ala and two Gln positions. At each of the five Arg positions, however, maintenance of Arg occupancy proved important for N function. Despite effective screening for increased N function at boxBs with defective loops, no N mutant, simple or complex, was found to change the order of preference of wild-type N lambda for boxBs with defective loops. Thus, although multiple amino-terminal Arg positions are found to be important for N function, mutations in the region spanning the five Arg residues were not found to compensate for defects in boxB loop.
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PMID:Clustered arginine residues of bacteriophage lambda N protein are essential to antitermination of transcription, but their locale cannot compensate for boxB loop defects. 851 Jan 51

Genome replication of poliovirus, as yet unsolved, involves numerous viral polypeptides that arise from proteolysis of the viral polyprotein. One of these proteins is 3AB, an RNA-binding protein with multiple functions, that serves also as the precursor for the genome-linked protein VPg (= 3B). Eight clustered charged amino acid-to-alanine mutants in the 3AB coding region of poliovirus were constructed and analyzed, together with three additional single-amino acid exchange mutants in VPg, for viral phenotypes. All mutants expressed severe inhibition in RNA synthesis, but none were temperature sensitive (ts). The 3AB polypeptides of mutants with a lethal phenotype were overexpressed in Escherichia coli, purified to near homogeneity, and studied with respect to four functions: (1) ribonucleoprotein complex formation with 3CDpro and the 5'-terminal cloverleaf of the poliovirus genome; (2) binding to the genomic and negative-sense RNA; (3) stimulation of 3CDpro cleavage; and (4) stimulation of RNA polymerase activity of 3Dpol. The results have allowed mapping of domains important for RNA binding and the formation of certain protein-protein complexes, and correlation of these processes with essential steps in viral genome replication.
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PMID:Molecular dissection of the multifunctional poliovirus RNA-binding protein 3AB. 854 54

We have used alanine scanning to analyze protein-protein interactions by human TATA-element binding protein (TBP) within the transcription preinitiation complex. The results indicate that TBP interacts with RNA polymerase II and general transcription factors IIA, IIB, and IIF within the functional transcription preinitiation complex and define the determinants of TBP for each of these interactions. The results permit construction of a model for the structure of the preinitiation complex.
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PMID:Protein-protein interactions in eukaryotic transcription initiation: structure of the preinitiation complex. 857 25

The RNA genome of hepatitis A virus (HAV) encodes a giant polyprotein that is putatively cleaved proteolytically into four structural and seven non-structural proteins. So far, most of the proposed non-structural proteins and their respective cleavage sites have not been identified. A vaccinia virus recombinant (vRGORF) containing the complete HAV ORF under the control of the bacteriophage T7 promoter was used to express HAV in recombinant animal cells (BT7-H) that constitutively expressed T7 DNA-dependent RNA polymerase. A HAV-specific 27.5 kDa expression product was identified as peptide 2B. The 27.5 kDa 2B antigen was also found in HAV-infected MRC-5 cells. The N-terminal amino acid residues of the new peptide 2B are Ala-Lys-Ile-Ser-Leu-Phe and polyprotein cleavage between 2A and 2B occurred at amino acids 836-837 (Gln-Ala). Furthermore, heterologous expression in the same system of regions P1-P2 and of the protease 3C (3Cpro) gene, showed that P1-P2 polyprotein is not cleaved autocatalytically but by 3Cpro. Hence, 3Cpro is effective in cleaving the polyprotein 2A-2B junction.
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PMID:Identification of hepatitis A virus non-structural protein 2B and its release by the major virus protease 3C. 862 28

When the Mg2+ ion in the catalytic center of Escherichia coli RNA polymerase (RNAP) is replaced with Fe2+, hydroxyl radicals are generated. In the promoter complex, such radicals cleave template DNA near the transcription start site, whereas the beta' subunit is cleaved at a conserved motif NADFDGD (Asn-Ala-Asp-Phe-Asp-Gly-Asp). Substitution of the three aspartate residues with alanine creates a dominant lethal mutation. The mutant RNAP is catalytically inactive but can bind promoters and form an open complex. The mutant fails to support Fe2+-induced cleavage of DNA or protein. Thus, the NAD-FDGD motif is involved in chelation of the active center Mg2+.
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PMID:Mapping of catalytic residues in the RNA polymerase active center. 865 76

The largest subunit of RNA polymerase II contains a repetitive C-terminal domain (CTD) consisting of tandem repeats of the consenus sequence Tyr1Ser2Pro3Thr4Ser5Pro6Ser7. Substitution of nonphosphorylatable amino acids at positions two or five of the Saccharomyces cerevisiae CTD is lethal. We developed a selection system for isolating suppressors of this lethal phenotype and cloned a gene, SCA1 (suppressor of CTD alanine), which complements recessive suppressors of lethal multiple-substitution mutations. A partial deletion of SCA1 (sca1 delta ::hisG) suppresses alanine or glutamate substitutions at position two of the consensus CTD sequence, and a lethal CTD truncation mutation, but SCA1 deletion does not suppress alanine or glutamate substitutions at position five. SCA1 is identical to SRB9, a suppressor of a cold-sensitive CTD truncation mutation. Strains carrying dominant SRB mutations have the same suppression properties as a sca1 delta ::hisG strain. These results reveal a functional difference between positions two and five of the consensus CTD heptapeptide repeat. The ability of SCA1 and SRB mutant alleles to suppress CTD truncation mutations suggest that substitutions at position two, but not at position five, cause a defect in RNA polymerase II function similar to that introduced by CTD truncation.
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PMID:Suppression analysis reveals a functional difference between the serines in positions two and five in the consensus sequence of the C-terminal domain of yeast RNA polymerase II. 872 17

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