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)

omega 4403 is the site of a Tn5 lac insertion in the Myxococcus xanthus genome that fuses lacZ expression to a developmentally regulated promoter. Cell-cell interactions that occur during development, including C-signaling, are required for expression of Tn5 lac omega 4403. We have cloned DNA upstream of the omega 4403 insertion site, localized the promoter, and identified a potential open reading frame. From the deduced amino acid sequence, the gene disrupted by Tn5 lac omega 4403 appears to encode a serine protease that is dispensable for development. The gene begins to be expressed between 6 and 12 h after starvation initiates development, as determined by measuring mRNA or beta-galactosidase accumulation in cells containing Tn5 lac omega 4403. The putative transcriptional start site was mapped, and sequences centered near -10 and -35 bp relative to this site show some similarity to the corresponding regions of promoters transcribed by Escherichia coli sigma70 RNA polymerase. However, deletions showed that an essential promoter element lies between -80 and -72 bp, suggesting the possible involvement of an upstream activator protein. DNA downstream of -80 is sufficient for C-signal-dependent activation of this promoter. The promoter is not fully expressed when fusions are integrated at the Mx8 phage attachment site in the chromosome. Titration of a limiting factor by two copies of the regulatory region (one at the attachment site and one at the native site) can, in part, explain the reduced expression. We speculate that the remaining difference may be due to an effect of chromosomal position. These results provide a basis for studies aimed at identifying regulators of C-signal-dependent gene expression.
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PMID:Characterization of the regulatory region of a cell interaction-dependent gene in Myxococcus xanthus. 862 20

In this study, the effects of high levels of guanosine tetraphosphate (ppGpp) on the decay and RNA chain elongation kinetics of the bacteriophage lambda late transcript in Escherichia coli were examined in the absence of amino acid starvation. The accumulation, mRNA decay kinetics, and RNA chain elongation rate of the lambda late mRNA were determined after heat induction of lambdacI857 lysogens in the presence of high levels of ppGpp induced from a RelAalpha fragment-overproducing plasmid. The accumulation kinetics and elongation rate determinations of the late mRNA were made at long times after induction to allow a new steady state of transcriptional activities under conditions of elevated intracellular levels of ppGpp. The results indicate no prolonged or significant effect on either mRNA decay or the RNA chain elongation rate of the late mRNA as a result of elevated ppGpp levels. Surprisingly, the RNA chain elongation rate determinations indicate an RNA polymerase processivity of approximately 90-100 nucleotides/s for the lambda late transcript despite the presence of high levels of ppGpp. The results are discussed in terms of various models for regulation of stable and messenger RNA synthesis in E. coli.
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PMID:The RNA chain elongation rate of the lambda late mRNA is unaffected by high levels of ppGpp in the absence of amino acid starvation. 866 73

To better understand the mechanisms that regulate stable RNA synthesis, we have analyzed the RNA polymerase I and III transcriptional activities of extracts isolated from cells propagated under a variety of conditions. Under balanced growth conditions the levels of both RNA polymerase I- and III-specific transcription increased proportionally with growth rate. Upon nutritional starvation, RNA polymerase I transcription rapidly declined, followed by 5 S rDNA and eventually tDNA transcription. Transcriptional activities in extracts were restored when the nongrowing cultures were resuspended in fresh medium, although growth did not resume. The differential expression of 5 S rDNA and tDNA genes in extracts prepared from cells subjected to partial starvation was traced to a 5 S rDNA-specific inhibitor and not to a defect in any RNA polymerase III transcription factor. Characterization of this inhibitor indicated that it was not 5 S rRNA. It was sensitive to phenol extraction and resistant to RNase, and its target did not appear to be transcription factor IIIA. Not all treatments that slowed or stopped growth down-regulated the stable RNA transcription apparatus. Cells that have been subjected to either energy starvation or cycloheximide treatment still retain the ability to synthesize stable RNA in vitro, suggesting the presence of alternative regulatory mechanisms.
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PMID:Regulation of the RNA polymerase I and III transcription systems in response to growth conditions. 870 32

clpC of Bacillus subtilis is part of an operon containing six genes. Northern blot analysis suggested that all genes are co-transcribed and encode stress-inducible proteins. Two promoters (PA and PB) were mapped upstream of the first gene. PA resembles promoters recognized by the vegetative RNA polymerase E sigma A. The other promoter (PB) was shown to be dependent on sigma B, the general stress sigma factor in B. subtilis, suggesting that clpC, a potential chaperone, is expressed in a sigma B-dependent manner. This is the first evidence that sigma B in B. subtilis is involved in controlling the expression of a gene whose counterpart, clpB, is subject to regulation by sigma 32 in Escherichia coli, indicating a new function of sigma B-dependent general stress proteins. PB deviated from the consensus sequence of sigma B promoters and was only slightly induced by starvation conditions. Nevertheless, strong induction by heat, ethanol, and salt stress occurred at the sigma B-dependent promoter, whereas the vegetative promoter was only weakly induced under these conditions. However, in a sigB mutant, the sigma A-like promoter became inducible by heat and ethanol stress, completely compensating for sigB deficiency. Only the downstream sigma A-like promoter was induced by certain stress conditions such as hydrogen peroxide or puromycin. These results suggest that novel stress-induction mechanisms are acting at a vegetative promoter. Involvement of additional elements in this mode of induction are discussed.
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PMID:Alternate promoters direct stress-induced transcription of the Bacillus subtilis clpC operon. 879 70

The hfq-encoded RNA-binding protein HF-I has long been known as a host factor for phage Qbeta RNA replication and has recently been shown to be essential for translation of rpoS, which encodes the sigmaS subunit of RNA polymerase. Here we demonstrate that an hfq null mutant does not synthesize glycogen, is starvation and multiple stress sensitive, and exhibits strongly reduced expression of representative sigmaS-regulated genes. These phenotypes are consistent with strongly reduced sigmaS levels in the hfq mutant. However, the analysis of global protein synthesis patterns on two-dimensional O'Farrell gels indicates that approximately 40% of the more than 30 proteins whose syntheses are altered in the hfq null mutant are not affected by an rpoS mutation. We conclude that HF-I is a global regulator involved in the regulation of expression of sigmaS and sigmaS-independent genes.
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PMID:The RNA-binding protein HF-I plays a global regulatory role which is largely, but not exclusively, due to its role in expression of the sigmaS subunit of RNA polymerase in Escherichia coli. 898 15

The cellular level of the rpoS-encoded sigmaS subunit of RNA polymerase increases in response to various stress situations that include starvation, high osmolarity, and shift to acid pH, and these different stress signals differentially affect rpoS translation and/or sigmaS stability. Here we demonstrate that sigmaS is also induced by heat shock and that this induction is exclusively due to an interference with sigmaS turnover. Some sigmaS-dependent genes exhibit similar heat shock induction, whereas others are not induced probably because they need additional regulatory factors that might not be present under conditions of heat shock or exponential growth. Despite its induction, sigmaS does not seem to contribute to heat adaptation but may induce cross-protection against different stresses. While sigmaS is not involved in the regulation of the heat shock sigma factor sigma32, the heat shock protein DnaK has a positive role in the posttranscriptional control of sigmaS. The present evidence suggests that DnaK is involved in the transduction of two of the signals that result in reduced sigmaS turnover, i.e., heat shock and carbon starvation. Heat shock induction of sigmaS also clearly indicates that a cessation of growth or even a reduction of the growth rate is not a prerequisite for the induction of sigmaS and sigmaS-dependent genes and underscores the importance of sigmaS as a general stress sigma factor.
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PMID:Heat shock regulation of sigmaS turnover: a role for DnaK and relationship between stress responses mediated by sigmaS and sigma32 in Escherichia coli. 899 Feb 97

The transcriptional regulation of two energy metabolism operons, hya and cbdAB-appA, has been investigated during carbon and phosphate starvation. The hya operon encodes hydrogenase 1, and the cbdAB-appA operon encodes cytochrome bd-II oxidase and acid phosphatase, pH 2.5. Both operons are targets for the transcriptional activator AppY. In exponential growth, expression of the hya and cbd operons was reduced in an rpoS mutant lacking the RNA polymerase sigmaS factor, and the induction of the two operons by entry into stationary phase in rich medium was strongly dependent on sigmaS. Both operons were induced by carbon starvation, but only induction of the hya operon was dependent on sigmaS, whereas that of the cbd promoter was dependent on AppY. The appY gene also showed sigmaS-dependent induction by carbon starvation. The cbd and hya operons were also found to exhibit a sigmaS-dependent transient twofold induction by osmotic upshift. Like the cbd operon, the hya operon was highly induced by phosphate starvation. For both operons the induction was strongly dependent on AppY. The induction ratio of the two operons was the same in rpoS+ and rpoS mutant strains, indicating that the phosphate starvation-induced increase in sigmaS concentration is not involved in the phosphate regulation of these operons.
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PMID:Effects of sigmaS and the transcriptional activator AppY on induction of the Escherichia coli hya and cbdAB-appA operons in response to carbon and phosphate starvation. 907 97

Mouse RNA polymerase I (Pol I) is composed of 14 polypeptides, 3 of which are thought to be loosely associated with, and may be dislodged from, Pol I. To find out whether these polymerase-associated factors (PAF53, 51, and 49) serve a role in growth-dependent control of rDNA transcription, we generated polyclonal antibodies against three subunits of murine Pol I, RPA116, RPA40 and PAF53, and used different experimental approaches, e.g. immunoblot analysis, immunoprecipitation and immunofluorescence studies, to compare the stoichiometry of individual subunits both in different Pol I preparations and in extracts from cells grown under different conditions. This comparative analysis reveals that the molar ratio of the second largest subunit RPA116 to PAF53 is the same, irrespective of whether crude extracts or highly purified Pol I fractions are analyzed. Significantly, the relative level of PAF53 was comparable in exponentially growing or growth-arrested cells, indicating that growth-dependent fluctuations in Pol I activity are not accompanied by alterations in the amount of PAF53. In addition, we show by high resolution immunofluorescence analysis that, under conditions of repressed rDNA transcription, including serum starvation, actinomycin treatment und during mitosis, PAF53 remains attached to the transcriptional machinery. The finding that the Mr 53,000 protein remains in the multiprotein complex under all experimental conditions tested indicates that PAF53 is not a loosely associated regulatory factor but a bona fide subunit of Pol I.
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PMID:Constitutive and strong association of PAF53 with RNA polymerase I. 925 23

Myxococcus xanthus is a Gram-negative bacterium that undergoes multicellular development upon starvation. We have developed a simple and rapid procedure for partial purification of RNA polymerase from growing M. xanthus cells, using heparin-agarose and DNA-cellulose chromatographies. In addition to core subunits, the enzyme contains one fairly abundant polypeptide of approximately 105 kDa. We have shown by Western blot analysis and protein sequencing that the 105-kDa polypeptide is sigmaA, the product of the M. xanthus sigA gene. Partially purified sigmaA RNA polymerase, or holoenzyme reconstituted from sigmaA and core RNA polymerase, transcribed in vitro the vegA and aphII genes that are known to be expressed in growing M. xanthus cells. Reconstituted sigmaA RNA polymerase produced vegA mRNA in vitro with the same 5' end as vegA mRNA produced in vivo, demonstrating that initiation of transcription was accurate in vitro. These results provide biochemical evidence that sigmaA is the major vegetative sigma factor of M. xanthus. To our knowledge, this is the first report of in vitro transcription of M. xanthus chromosomal genes, providing a foundation for further biochemical analysis of transcriptional regulatory mechanisms in a microbe that relies extensively on cell-cell interactions.
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PMID:In vitro transcription of Myxococcus xanthus genes with RNA polymerase containing sigmaA, the major sigma factor in growing cells. 930 9

The regulator of fumarate and nitrate reduction (FNR) protein of Escherichia coli is an oxygen-responsive transcription regulator that acts mainly to activate the transcription of genes associated with anaerobic energy generation during periods of oxygen starvation. The hlyX gene of the swine pathogen Actinobacillus pleuropneumoniae encodes an FNR homologue, HlyX, which can complement the anaerobic respiratory deficiencies of an fnr mutant. However, FNR and HlyX have distinct but overlapping regulons because during anaerobic incubation, hlyX-expressing E. coli K-12 strains produce an otherwise latent haemolysin. The gene encoding the 'latent' haemolysin has been designated hlyE and analysis of the promoter region by DNase I footprinting reveals the presence of an FNR- (HlyX-) binding site. Anaerobic expression of an hlyE::lacZ reporter was 6.5-fold higher in hlyX compared to fnr-expressing cells. Both FNR and HlyX recruited RNA polymerase to the hlyE promoter but formed different ternary complexes. One major transcript (tsp1) initiating at 78.5 bp downstream of the FNR-binding site and four minor transcripts initiating at 73.5 (tsp2), 71.5 (tsp3), 63.5 (tsp4) and 62.5 (tsp5) bp from the FNR site were detected. From the position of the FNR box relative to the transcript starts, hlyE is expressed from a Class I FNR-regulated promoter. Substitution of selected FNR amino acids with the residues found in the equivalent positions in HlyX indicated that Activating Region 1 (AR1) of FNR forms a surface encompassing beta to beta 11 and that the AR1 contact at Class I promoters is different to that at Class II promoters, although the same surface is involved. The FNR variant, FNR-A225T, combined the properties of FNR (good activation from Class II promoters) and HlyX (good activation of Class I promoters) and conferred the haemolytic phenotype.
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PMID:The molecular basis for the differential regulation of the hlyE-encoded haemolysin of Escherichia coli by FNR and HlyX lies in the improved activating region 1 contact of HlyX. 942 3

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