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)

Cladosporin, a fungal isocoumarin derivative, strongly inhibits the uptake and thereby the incorporation of uracil and leucine into cells of Bacillus brevis and the incorporation of uridine but not leucine into cells of the ascitic form of Ehrlich carcinoma (ECA) of mice. Normal uptake was not restored by removal of the antibiotic. In cells of Escherichia coli A 19-15 (met-) the inhibition of methionine uptake is associated with the cessation of growth. In a methionine-prototrophic revertant from this organism, the uptake of methionine is still inhibited; growth, however, is hardly affected by cladosporin. In vitro no effect on the DNA-dependent RNA polymerase from E. coli and on the RNA polymerase II from wheat germ could be detected. The poly(U)-directed poly(Phe) synthesis was also not inhibited by cladosporin. It is concluded that cladosporin inhibits uptake processes which, for the case of essential nutrients, leads to loss of viability.
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PMID:Metabolic products of microorganisms. 184. On the mode of action of cladosporin. 51 84

Mutations were introduced into a cDNA clone of poliovirus resulting in single-amino-acid substitutions within the region of the proposed FG loop of proteinase 3C. RNAs were made by in vitro transcription with T7 RNA polymerase and used to transfect HeLa cells. Virus viability was assessed as indicated by cell lysis. In parallel, RNAs were translated in vitro by using a HeLa cell lysate, and the patterns of the processed poly-proteins were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Replacement of Lys-78, Arg-79, and Glu-81 had apparently no effect on virus viability and on proteolytic processing. In contrast, virus viability was abolished by mutation of Phe-83, Arg-84, Asp-85, Ile-86, and Arg-87. With respect to substitution of Phe-83, Asp-85, and Arg-87, these effects correlated with impaired processing of the 3CD cleavage site, separating 3C and 3D, and, to a lesser extent, of the P1 precursor. Replacement of Arg-84 and Ile-86, on the other hand, did not alter the processing pattern. Thus, the lethal effects in these mutant genomes may not have been caused by impaired processing. A special case was the mutant of Lys-82-Gln. Virus recovered from cells transfected with RNA carrying this mutation always contained an A-to-G transition which resulted in the replacement of glutamine for arginine. Our data suggest that residues in the proposed FG loop of proteinase 3C influence 3CD cleavage and that they are determinants of a function unrelated to proteolytic processing.
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PMID:Mutational analysis of the proposed FG loop of poliovirus proteinase 3C identifies amino acids that are necessary for 3CD cleavage and might be determinants of a function distinct from proteolytic activity. 132 54

Pseudomonas syringae pv. syringae 61 contains a 25-kb cluster of hrp genes that are required for elicitation of the hypersensitive response (HR) in tobacco. TnphoA mutagenesis of cosmid pHIR11, which contains the hrp cluster, revealed two genes encoding exported or inner-membrane-spanning proteins (H.-C. Huang, S. W. Hutcheson, and A. Collmer, Mol. Plant-Microbe Interact. 4:469-476, 1991). The gene in complementation group X, designated hrpH, was subcloned on a 3.1-kb SalI fragment into pCPP30, a broad-host-range, mobilizable vector. The subclone restored the ability of hrpH mutant P. syringae pv. syringae 61-2089 to elicit the HR in tobacco. DNA sequence analysis of the 3.1-kb SalI fragment revealed a single open reading frame encoding an 81,956-Da preprotein with a typical amino-terminal signal peptide and no likely inner-membrane-spanning hydrophobic regions. hrpH was expressed in the presence of [35S]methionine by using the T7 RNA polymerase-promoter system and vector pT7-3 in Escherichia coli and was shown to encode a protein with an apparent molecular weight of 83,000 on sodium dodecyl sulfate-polyacrylamide gels. The HrpH protein in E. coli was located in the membrane fraction and was absent from the periplasm and cytoplasm. The HrpH protein possessed similarity with several outer membrane proteins that are known to be involved in protein or phage secretion, including the Klebsiella oxytoca PulD protein, the Yersinia enterocolitica YscC protein, and the pIV protein of filamentous coliphages. All of these proteins possess a possible secretion motif, GG(X)12VP(L/F)LXXIPXIGXL(F/L), near the carboxyl terminus, and they lack a carboxyl-terminal phenylalanine, in contrast to other outer membrane proteins with no known secretion function. These results suggest that the P. syringae pv. syringae HrpH protein is involved in the secretion of a proteinaceous HR elicitor.
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PMID:The Pseudomonas syringae pv. syringae 61 hrpH product, an envelope protein required for elicitation of the hypersensitive response in plants. 140 Feb 38

In transcriptionally active complexes between RNA polymerase and promoters, the center of the melted region is hyperreactive to the nucleolytic activity of the cuprous complex of 1,10-phenanthroline (OP-Cu). In the first part of this work, using synthetic oligonucleotides and exploiting gel retardation assays, I demonstrate that DNA unpairing is not the only determinant of this hyperreactivity. Polymerase binding is directly implicated, presumably participating in the stabilization of an intermediate required for the cutting. In the second part of the work, I show that, from fine analysis of the nucleolytic pattern of lacUV5 promoter DNA towards OP-Cu and Phe OP-Cu, it is possible to locate polymerase and to characterize its contacts at any time during the early stages of transcription. This analysis provides a description of the passage from the "open complex" to the elongation mode in terms of, first, release of the upstream contacts, and second, loss of sigma subunit. Occupancy of the overlapping promoter, P2, has a positive effect on the escape of polymerase from abortive cycling. The involvement of sigma and beta subunits in the reactivity pattern is discussed with respect to previous cross-linking studies.
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PMID:Passage of RNA polymerase from open complex to elongation mode at the Escherichia coli lacUV5 promoter: nucleolytic hypersensitivity as a probe for complex conformational changes. 142 Jan 67

Transcript elongation and termination in Escherichia coli is modulated, in part, by the nusA gene product, an acidic protein that interacts not only with RNA polymerase itself but also with ancillary factors, namely the host termination protein Rho and phage lambda antitermination protein, N. The E. coli nusA1 mutant fails to support lambda development due to a specific defect in N-mediated antitermination. Certain rifampicin-resistant (rifR) variants of the nusA1 host support lambda growth. We report here the isolation and pleiotropic properties of one such rifR mutant, ts8, resulting from a single amino acid substitution mutation in rpoB, the structural gene for polymerase beta subunit. ts8 is a recessive lethal mutation that blocks cell growth at 42 degrees. Pulse-labeling and analysis of newly synthesized proteins indicate that the mutant cell is proficient in RNA synthesis at high temperature. Apparently, ts8 causes a loss of some specialized function of RNA polymerase without a gross defect in general transcription activities. ts8 is an allele-specific suppressor of nusA1. It does not suppress nusAsal, nusB5 and nusE71 mutations nor does it bypass the requirement for a functional N gene and the nut site for antitermination and lambda growth. A mutation in the N gene, punA1, that restores lambda growth in the nusA1 mutant host but not in the nusAsal host, compensates for the nusAsal allele in the ts8 mutant. This combined effect of two allele-specific suppressors suggests that they enhance some aspect of polymerase-NusA-N interaction and function. ts8 suppresses the rho15 mutation, but not the rho112 mutation, indicating that it might render RNA polymerase susceptible to the action of a defective Rho protein. Marker rescue analysis has localized ts8 to a 910-bp internal segment of rpoB that encodes the Rif domain. By amplification, cloning and sequencing of this segment of the mutant chromosome we have determined that ts8 contains Phe in place of Ser522, caused by a C to T transition. By gene conversion, we have established that the simultaneous gain and loss of three functions of polymerase is caused by this single amino acid substitution. Clearly, a site in the beta subunit critical for the functioning of both termination and antitermination factors is altered by ts8. The alteration, we imagine, might make this site on polymerase receptive to some factors but repulsive to others.
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PMID:Simultaneous gain and loss of functions caused by a single amino acid substitution in the beta subunit of Escherichia coli RNA polymerase: suppression of nusA and rho mutations and conditional lethality. 155 68

Activator proteins that control transcription initiation by RNA polymerase II usually have two domains: one binds to DNA, and the other activates transcription. A particularly potent acidic activation domain at the C terminus of the herpes simplex virus protein VP16 binds directly and selectively to the human and yeast TATA box-binding factor TFIID. We have now investigated the biological significance of this in vitro interaction by using mutant forms of VP16. For changes at the critical phenylalanine residue at position 442 of VP16 there was a good correlation between transactivation activity in vivo and the binding of VP16 to TFIID in vitro. In contrast, mutants with reduced negative charge were more defective for binding than for activation.
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PMID:Reduced binding of TFIID to transcriptionally compromised mutants of VP16. 164 2

Ribonuclease P RNA is the catalytic moiety of the ribonucleoprotein enzyme that removes precursor sequences from 5'-ends of pre-tRNAs. A photoaffinity cross-linking agent was coupled to the substrate phosphate on which RNase P acts and used to map nucleotides in the vicinity of the catalytic site of this ribozyme. Mature tRNA(Phe) containing a 5'-thiophosphate was synthesized by transcription in vitro using phage T7 RNA polymerase in the presence of guanosine 5'-phosphorothioate. The photoagent (azidophenacyl) was coupled uniquely to the 5'-thiophosphate of the tRNA, the site of action by RNase P. The photoagent-containing tRNA binds to RNase P RNA and is cross-linked by UV irradiation to it at high efficiency (10-30%). Cross-linked conjugates are enzymatically inactive, consistent with the occupancy of the active site of the RNase P RNA by the tRNA. Reversal of the cross-link by phenylmercuric acetate restores activity. The sites of cross-linking in RNase P RNA were determined by primer extension. In order to identify generalities and detect idiosyncrasies, analyses were carried out using RNase P RNAs from three phylogenetically diverse organisms: Bacillus subtilis, Chromatium vinosum and Escherichia coli. In the context of a phylogenetic structure model, two regions of cross-linking are observed in all three RNAs. Two of the RNAs cross-link to a lesser extent at a third structural region and one of the RNAs is cross-linked to a small extent to a fourth region. All the sites of cross-linking between the substrate phosphate in tRNA and the RNase P RNAs are in the conserved core of the structure model, consistent with the importance of the cross-linked residues to the action of this RNA enzyme.
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PMID:Mapping the active site of ribonuclease P RNA using a substrate containing a photoaffinity agent. 170 Nov 42

In a previous report it had been suggested that the tyrP gene of Escherichia coli may be expressed from two separate promoters. We have endeavored to confirm this suggestion by primer extension studies and the separate subcloning of each of these promoters. In these studies, we found a single promoter whose expression was repressed by TyrR protein in the presence of tyrosine and activated by TyrR protein in the presence of phenylalanine. Two adjacent TYR R boxes, with the downstream one overlapping the tyrP promoter, are the likely targets for the action of TyrR protein. Mutational analysis showed that both TYR R boxes were required for tyrosine-mediated repression but that only the upstream box was required for phenylalanine-mediated activation. In vitro DNase protection studies established that whereas in the absence of tyrosine TyrR protein protected the region of DNA represented by the upstream box, at low TyrR protein concentrations both tyrosine and ATP were required to protect the region of DNA involving the downstream box and overlapping the RNA polymerase binding site.
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PMID:Mutational analysis of repression and activation of the tyrP gene in Escherichia coli. 186 Aug 19

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

The TyrR protein regulates the expression of eight transcriptional units that comprise the TyrR regulon. In all but one case, regulation is by repression, while in two cases activation of expression can occur. Notwithstanding the fact that the TyrR protein contains an ATP-binding domain and a helix-turn-helix DNA-binding domain which are structurally homologous to domains of similar functions in proteins such as NifA, NtrC, DctD and XylR, it differs from them in a number of respects. It is not a part of a two-protein component system and it lacks the amino-terminal domain that is present on NtrC and DctD. It activates transcription from 'E sigma 70, promoters but not from 'E sigma 54, promoters. ATP binding seems to be essential for tyrosine-mediated repression but not for activation. In addition, the activity of the TyrR protein is modulated by the binding of one or more of the aromatic amino acids. The consensus sequence for TyrR-binding sites in DNA, referred to as TyrR boxes, is TGTAAAN6TTTACA. Tyrosine-mediated repression occurs at operators containing a pair of adjacent boxes. These have unequal affinities for the TyrR protein. The box that overlaps the RNA polymerase binding site is only bound by TyrR in the presence of both ATP and tyrosine, and binding appears to involve co-operativity between two TyrR protein dimers. In contrast, activation of expression by TyrR appears to require phenylalanine but not ATP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:TyrR protein of Escherichia coli and its role as repressor and activator. 194 94

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