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 effect of sucrose feeding on endogenous intestinal RNA polymerase activities and on chromatin structure was studied in rats. Adult rats were given a 70% sucrose solution for 15 hours following a 48-hour starvation period. Comparison was made with rats starved for 63 hours and with ad libitum nourished animals. Chromatin-bound RNA polymerase I activity was significantly reduced by starvation. Sucrose feeding provoked a significant rise in the activity, but the level found in the nourished rats was not reached. The free poly[d(A-T)]-dependent RNA polymerase I activity of the sucrose-fed rats exceeded that of the starved and the nourished animals. Chromatin-bound RNA polymerase II activity was enhanced most markedly by sucrose feeding. The balance between the chromatin-bound and free enzymes was shifted towards the chromatin-bound state when compared to the starved and nourished rats. Starvation caused a reduction in the size of oligonucleosomes but sucrose feeding restored almost entirely the original pattern obtained in the nourished animals. These results reflect modifications in the structure of chromatin after sucrose feeding. The present report demonstrates that the adaptive processes triggered in the intestine by dietary sucrose are associated with changes in gene expression.
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PMID:Modulation of RNA polymerase activities in the intestine of adult rats by dietary sucrose. 661 82

From Escherichia coli, a DNA-binding protein that preferentially recognizes a curved DNA sequence was isolated and shown to correspond to one that has recently been reported as a binding protein for the replication origin of the E. coli chromosome, named Rob. Here, a rob promoter-lacZ transcriptional fusion was constructed on the chromosome, and used to demonstrate that the expression of rob is notably enhanced at the onset of stationary phase in Luria-broth and also under certain growth conditions in a minimal medium, such as glucose- and phosphate-starvation medium. It was further shown that this growth condition-dependent expression of rob is notably reduced in a null mutant for the stationary phase-specific sigma subunit of RNA polymerase, sigma s, although sigma s-independent expression of rob was significant during the logarithmic growth phase. Furthermore the rob null mutant was found to exhibit, as compared with the wild-type, an altered profile of protein synthesis, particularly at the very late stationary phase.
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PMID:An Escherichia coli curved DNA-binding protein whose expression is affected by the stationary phase-specific sigma factor sigma S. 747 63

The mutant sigA allele of Bacillus subtilis DB1005 was confirmed to be temperature sensitive (ts) and transferable among strains of B. subtilis by chromosomal transformation and gene conversion. This ts sigA allele had a pleiotropic effect on gene expression of DB1005. The induction of certain heat shock proteins in DB1005 was markedly less significant than that observed in the wild-type strain (DB2) under heat stress. In contrast, some proteins required for coping with oxidative stress and glucose starvation were induced abruptly in DB1005 but not in DB2. Heat induction of the groEL gene in vivo at both transcription and translation levels was much lower in DB1005 than in DB2. Besides, the putative sigma A-type promoter from the groESL operon of B. subtilis was able to be transcribed by the reconstituted sigma A RNA polymerase in vitro at both 37 and 49 degrees C. These results strongly suggest that the expression of the groEL gene of B. subtilis under heat stress is regulated at least in part by sigma A at the level of transcription. Our results also showed that DB1005 did not respond too differently from the wild type to ethanol stress, except after a relatively long exposure.
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PMID:The response of a Bacillus subtilis temperature-sensitive sigA mutant to heat stress. 751 40

When nutrients become limiting, many bacteria differentiate and become resistant to environmental stresses. For Escherichia coli, this process is mediated by the sigma s subunit of RNA polymerase. Expression of sigma s was induced by homoserine lactone, a metabolite synthesized from intermediates in threonine biosynthesis. Homoserine lactone-dependent synthesis of sigma s was prevented by overexpression of a newly identified protein, RspA. The function of homoserine lactone derivatives in many cell density-dependent phenomena and the similarity of RspA to a Streptomyces ambofaciens protein suggest that synthesis of homoserine lactone may be a general signal of starvation.
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PMID:Sensing starvation: a homoserine lactone--dependent signaling pathway in Escherichia coli. 754 40

Most Saccharomyces cerevisiae strains carry in their cytoplasm 20 S RNA, a linear single-stranded RNA molecule of 2.5 kilobases in size. 20 S RNA copy number is greatly induced in stress conditions such as starvation, with up to 100,000 copies per cell. 20 S RNA has coding capacity for a protein of 91 kDa (p91) with sequences diagnostic of RNA-dependent RNA polymerases of (+) strand and double-stranded RNA viruses. We detected p91 in 20 S RNA-carrying strains with specific antisera. The amount of p91 in growing cells is higher than that of stationary cells and similar to the one in 20 S RNA-induced cells. Although 20 S RNA is not encapsidated into viral particles, p91 non-covalently forms a ribonucleoprotein complex with 20 S RNA. This suggests a role of p91 in the RNA to RNA synthesis processes required for 20 S RNA replication. Although the strain analyzed also harbors 23 S RNA, a closely related single-stranded RNA, 23 S RNA is not associated with p91 but with its putative RNA polymerase, p104. Similarly, 20 S RNA is not associated with p104 but with p91. These results suggest that 20 S RNA and 23 S RNA replicate independently using their respective cognate RNA polymerases.
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PMID:Yeast viral 20 S RNA is associated with its cognate RNA-dependent RNA polymerase. 765 26

The rpoS (katF) gene, which encodes a RNA polymerase sigma factor (sigma s), regulates the virulence of Salmonella typhimurium in mice. In the present study, we show that rpoS mutants can be frequently found among laboratory strains of Salmonella. In addition, a rpoS mutation was identified in the S. typhi live oral vaccine Ty21a. Introduction of a wild-type rpoS gene in Ty21a allowed the bacteria to survive better under starvation conditions and increased their resistance to other stresses. These results contribute to a better understanding of the genetic background of the live typhoid oral vaccine Ty21a and suggest that the rpoS mutation may contribute to the safety of this strain in humans.
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PMID:The live oral typhoid vaccine Ty21a is a rpoS mutant and is susceptible to various environmental stresses. 770 8

The upstream noncoding region of the Synechococcus sp. strain PCC 7942 (hereafter referred to as Synechococcus 7942) glnA gene was fused to the cat gene in order to study the expression of glnA both in Synechococcus 7942 and in Escherichia coli. The lack of cat expression in E. coli indicated that the glnA promoter was not recognized by E. coli RNA polymerase. The fused construct was integrated into the Synechococcus 7942 chromosome at a neutral site. Expression of the cat reporter gene was regulated under various nitrogen conditions in a way similar to that of the glnA gene. A deletion introduced at the binding site of the NtcA regulatory protein abolished derepression of the glnA promoter during growth in nitrate and under nitrogen starvation. Deletion of the sequence between the transcription and translation start sites of glnA prevented the repression observed during growth in ammonium. These results indicate that the glnA promoter is subject to complex regulation that involves sequences upstream and downstream from the transcription start site.
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PMID:Characterization of cis elements that regulate the expression of glnA in Synechococcus sp. strain PCC 7942. 772 15

On amino acid starvation, Escherichia coli cells exhibit an adaptive facility termed the stringent response. This is characterized by the production of high levels of a regulatory nucleotide, ppGpp, and concomitant curtailment in rRNA synthesis. Various studies reported earlier indicated that RNA polymerase is the site of action of ppGpp although a direct demonstration of the interaction of ppGpp with E. coli RNA polymerase is still lacking. Here we report the labelling of ppGpp with a fluorescent probe, 1-aminonapthalene-5-sulphonate (AmNS), at the terminal phosphates. AmNS-ppGpp responded much like a ppGpp molecule in an in vitro total transcription assay at selective promoters. Fluorescence titration of the tryptophan emission of RNA polymerase by AmNS-ppGpp indicated a unique binding site in the absence of template DNA. Competition experiments showed that unlabelled ppGpp binds to the enzyme at the same site. Sigma factor seems to have no effect on this binding. The titration profile is also characterized by a single slope in the Scatchard analysis. The presence of GTP or GDP does not influence the binding of AmNS-ppGpp with RNA polymerase. Forster's distance measurement was carried out which placed AmNS-ppGpp 27 A away from the rifampicin-binding domain of RNA polymerase.
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PMID:Evidence for a ppGpp-binding site on Escherichia coli RNA polymerase: proximity relationship with the rifampicin-binding domain. 774 47

Cells of Pseudomonas aeruginosa secrete a fluorescent yellow-green siderophore, pyoverdine, when grown under iron-deficient conditions. We describe here the cloning and characterization of a gene, pvdS, which is required for this process. The pvdS gene is required for expression from promoters of at least two pyoverdine synthesis genes and can cause expression from these promoters in Escherichia coli, where they are otherwise inactive. Sequencing of pvdS revealed that it is a member of a subfamily of RNA polymerase sigma factors which direct the synthesis of extracellular products by bacteria. The pvdS gene is expressed only in iron-starved bacteria, and in E. coli cells at least, expression is regulated by the Fur repressor protein. We propose that in iron-rich cells of P. aeruginosa, Fur binds to the pvdS promoter and prevents expression of the gene; under conditions of iron starvation, repression is relieved and PvdS is made, reprogramming the cells for pyoverdine synthesis.
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PMID:Cloning and characterization of pvdS, a gene required for pyoverdine synthesis in Pseudomonas aeruginosa: PvdS is probably an alternative sigma factor. 775 Dec 84

The mutual role of glucose and insulin in the regulation of glucokinase and GLUT2 glucose transporter gene expression in pancreatic B-cells and liver has been studied in vivo in the rat. Glucokinase mRNA was quantified by competitive reverse-transcriptase PCR analysis, and GLUT2 mRNA by Northern-blot analysis in total RNA fractions. As in the liver, glucokinase mRNA decreased by 64% in pancreatic B-cells after starvation for 2 days and was induced 3-fold by short-term treatment (1 h) of the rats with oral glucose (4 g/kg body wt.). In contrast the sulphonylurea compound glibenclamide (0.1 mg/kg body wt.) did not significantly stimulate glucokinase gene expression in pancreatic B-cells. But glibenclamide caused a 4-fold increase of glucokinase mRNA in liver which was abolished by concomitant administration of diazoxide, a drug which antagonizes glibenclamide stimulated insulin secretion. GLUT2 gene expression was decreased by 50% in pancreatic B-cells and liver after starvation of the rats for 2 days. Neither short-term treatment (1 h) with glucose nor glibenclamide resulted in a significant increase of GLUT2 gene expression in pancreatic B-cells and liver. The results suggest that it is glucose which stimulates glucokinase gene expression in pancreatic B-cells whereas the transcriptional regulation of the glucokinase gene in liver is directed by insulin.
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PMID:Effects of glucose refeeding and glibenclamide treatment on glucokinase and GLUT2 gene expression in pancreatic B-cells and liver from rats. 775 56

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