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 steady state levels of the transcripts of the beta' subunit of RNA polymerase gene (rpoC), three sigma factor genes (rpoD, rpoN, and rpsD), and four putative sigma factor regulatory genes (rsbW, rsbV1, rsbV2, and rsbU) of Chlamydia trachomatis L2 were examined during the chlamydial developmental cycle by reverse transcription-polymerase chain reaction (RT-PCR) analysis. rpoC and the major sigma factor rpoD transcripts were detected at all times post-infection, consistent with their expected function in the expression of housekeeping genes. Transcripts of the alternative sigma factors and the putative regulatory genes (with the exception of those of rsbV2, which were present at near constant levels at all times) were present at low or undetectable levels at the time of elementary body (EB) to reticulate body conversion early in the cycle, but were easily detected during the logarithmic growth phase of RBs, indicating that these genes are not expressed in a cascade fashion and that it is unlikely that their major role is to recognize the promoters of stage-specific genes.
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PMID:Expression of the transcripts of the sigma factors and putative sigma factor regulators of Chlamydia trachomatis L2. 1077 61

We have recently shown that the rat hepatic lectin (RHL)-1 subunit of the asialoglycoprotein receptor (ASGPr) is expressed in the PC C13 differentiated thyroid cell line. To investigate in vivo the expression of RHL-1 and the ability of thyrotropin (TSH) to modulate its expression, reverse-transcriptase polymerase chain reaction (RT-PCR) and Western blot assays have been performed on thyroid extracts from rats treated with thyroxine (T4) or propylthiouracil (PTU), each of which modulates TSH levels. It is shown that RHL-1 expression is down-regulated by T4 (which decreases serum TSH) and upregulated by PTU (which increases serum TSH), at both mRNA and protein levels. The sensitivity of RHL-1 to neoplastic transformation of thyroid cells has been investigated. The RHL-1 expression pattern has been studied in PC C13 thyroid cells transformed by several oncogenes that induce different degrees of malignancy and dedifferentiation. RT-PCR and Western blot assays show that RHL-1 expression progressively decreases as PC C13 cells acquire a more transformed phenotype. Expression of glyceraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA, a housekeeping gene used as internal control to normalize RHL-1 mRNA content, exhibits no variations in the different PC C13 cell lines used. In addition, we show that both native and asialo-thyroglobulin (Tg) bind RHL-1 in vitro, and native Tg binds RHL-1 on the surface of PC C13 cells. After thyroid cells transformation, the surface expression of RHL-1 is inhibited in a measure that correlates with the mRNA and protein levels. Therefore, the RHL-1 inhibition at the mRNA, protein and plasma membrane expression follows a gradient that parallels the progressive acquisition of the fully transformed phenotype in the PC C13 system. The results reported in the present article, together with our previous data, suggest that RHL-1 expression could be regulated, at least in part, by the same transcription factors involved in the expression of the other molecules characteristic of the thyroid differentiated state.
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PMID:The rat hepatic lectin-1 subunit of the asialoglycoprotein receptor is upregulated by thyrotropin and downregulated by neoplastic transformation of thyroid cells. 1077 34

CDK9 is the catalytic subunit of a general RNA polymerase II (RNAP II) elongation factor termed p-TEFb which is targeted by the human immunodeficiency virus (HIV) Tat protein to activate elongation of the integrated proviral genome. CDK9 mRNA and protein levels have been observed to be induced in activated peripheral blood lymphocytes, a cell type relevant to HIV infection. To investigate mechanisms that regulate CDK9 RNA expression, we isolated genomic sequences containing the human CDK9 gene and found that CDK9 coding sequences are interrupted by six introns. There is a major transcriptional start site located 79 nucleotides upstream of the ATG initiator codon at nucleotide +1. Nucleotides -352 to -1 contain all the transcriptional regulatory elements needed for full promoter activity in transient expression assays. The CDK9 promoter contains features characteristic of a housekeeping gene, including GC-rich sequences and absence of a functional TATA element. The CDK9 promoter possesses high constitutive activity and may therefore have utility in expression vectors or gene therapy vectors.
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PMID:Genomic organization and characterization of promoter function of the human CDK9 gene. 1090 37

The Escherichia coli mutant CWML2 was previously reported to exhibit improved physiological characteristics, including recombinant protein production. Here we investigate the molecular basis of this phenotype by comparing the cellular level of three RNA polymerase sigma subunits by immunoblot analysis. While the level of housekeeping sigma(D) was similar in parent and mutant, the levels of the flagella synthesis regulator sigma(F) and the stationary phase regulator sigma(S) were higher in the mutant strain, indicating a different motility and stationary phase phenotype. Evidence for this conclusion was provided by the significantly higher motility of CWML2, compared to its parent. Based on these results, we hypothesized that alterations in ppGpp regulation via a homoserine lactone-dependent mechanism may be relevant for the mutant phenotype. Indeed, transcription of the rspAB operon, which was previously described to be involved in the degradation of homoserine lactone, was found to be deregulated in CWML2 in a plasmid-based reporter protein assay. By overexpression of the E. coli rspAB operon, we could partly mimic the mutant phenotype and demonstrate that co-overexpression of RspAB is a pertinent metabolic engineering strategy to improve recombinant protein production.
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PMID:Co-overexpression of RspAB improves recombinant protein production in Escherichia coli. 1112 Jun 41

Dental enamel-forming cells face a major challenge to avoid the cytotoxic effects of excess calcium. We have characterized sarcoplasmic/endoplasmic reticulum calcium-ATPase pumps (SERCA) in rat enamel cells to address the proposal that non-mitochondrial calcium stores play a dominant role in transcellular calcium transport. A single major isoform, SERCA2b, was detected during the protein-secretory and calcium-transport stages of enamel formation using reverse-transcriptase PCR, cDNA cloning, Northern analysis and immunoblotting. Most importantly, SERCA2b exhibited a specific 3-fold up-regulation to high expression levels during calcium transport, as determined by quantitative immunoblotting and ATPase assays. Sensitivity of the calcium-dependent ATPase to thapsigargin and three other SERCA inhibitors was characterized. These findings indicate that enamel cells are well-equipped to sequester calcium in endoplasmic reticulum stores and so protect against calcium toxicity, associate SERCA with transcellular calcium transport for the first time, and establish SERCA2b as a molecular and pharmacological target for future investigations of calcium transcytosis. The observed physiological regulation in enamel cells contradicts the widespread perception that SERCA2b is restricted to general housekeeping duties.
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PMID:Endoplasmic reticulum Ca2+-ATPase pump is up-regulated in calcium-transporting dental enamel cells: a non-housekeeping role for SERCA2b. 1148 70

The important human pathogen Streptococcus pyogenes (the group A streptococcus or GAS) causes diseases ranging from mild, self-limiting pharyngitis to severe invasive infections. Regulation of the expression of GAS genes in response to specific environmental differences within the host is probably key in determining the course of the infectious process, however, little is known of global regulators of gene expression in GAS. Although secondary RNA polymerase sigma factors act as global regulators of gene expression in many other bacteria, none has yet been isolated from the GAS. The newly available GAS genome sequence indicates that the only candidate secondary sigma factor is encoded by two identical open reading frames (ORFS). These ORFS encode a protein that is 40% identical to the transcription factor ComX, believed to act as an RNA polymerase sigma factor in Streptococcus pneumoniae. To test whether the GAS ComX homologue functions as a sigma factor, we cloned and purified it from Escherichia coli. We found that in vitro, this GAS protein, which we call sigmaX, directed core RNA polymerase from Bacillus subtilis to transcribe from two GAS promoters that contain the cin-box region, required for transcription by S. pneumoniae ComX in vivo. On the other hand, GAS sigmaX did not promote transcription of a GAS promoter (hasA) expected to be dependent on sigmaA, the housekeeping or primary RNA polymerase sigma factor. Addition of monoclonal antibody that inhibited sigmaA-directed transcription had no effect on sigmaX-directed transcription, showing that the latter was not the result of contaminating sigmaA. Transcription of both cin-box-containing promoters initiated downstream of the cin-box and two different single basepair substitutions in the cin-box of the cinA promoter each caused a severe reduction of sigmaX-directed transcription in vitro. Thus, the cin-box is required for sigmaX-directed transcription.
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PMID:A secondary RNA polymerase sigma factor from Streptococcus pyogenes. 1170 70

In vitro transcription of lonD, a heat-shock gene from Myxococcus xanthus, was stimulated in the presence of extract from heat-shocked cells. For this stimulation the upstream promoter region of lonD was found to be essential. Activation of lonD transcription was also observed when extract from non-heat-shocked cells was heat treated in vitro at 42 degrees C for 10 min. A DNA binding assay and footprinting analysis revealed that a factor(s) binds to the upstream region from -122 to -107 with respect to the transcription initiation site. This region was required for heat-shock induction of lonD expression both in vitro and in vivo. The lonD promoter-binding protein named HsfA was purified, and its gene was cloned. Analysis of the DNA sequence reveals that HsfA is a response regulator of the two-component system and shows high sequence similarity to the NtrC family or the enhancer-binding proteins. Upstream of hsfA, a gene encoding a histidine kinase was identified and named hsfB. HsfB was found to be autophosphorylated and able to phosphorylate HsfA. HsfA with HsfB activated in vitro transcription of lonD in a manner dependent on RNA polymerase containing SigA, the housekeeping sigma factor of M. xanthus.
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PMID:Transcriptional activation of a heat-shock gene, lonD, of Myxococcus xanthus by a two component histidine-aspartate phosphorelay system. 1174 31

Sigma factors are important elements involved in transcriptional regulation of gene expression by conferring promoter specificity to RNA polymerase. The number of sigma factor encoding genes in 31 completely sequenced bacterial genomes were compared. Two unrelated families of sigma factors, the sigma70- and the sigma54-family were identified previously. The sigma70-family can be further subdivided into two distantly related groups: the sigma70 subfamily and the poorly characterized ECF subfamily. A total of 215 sigma factors could be attributed to these subfamilies. The construction of phylogenetic trees allows subclassifications of sigma factor encoding genes within the subfamilies. With the exception of Deinococcus radiodurans, all species possess a housekeeping primary sigma factor. Free-living species possess a higher number of both sigma70-type and ECF alternative sigma factors than pathogens or symbionts associated with animals. Different bacterial species exhibit large differences in the number of alternative sigma factor encoding genes and consequently huge flexibility in their transcriptional regulatory patterns. Transcriptional regulation in terms of regulons controlled by alternative sigma factors is a late evolving phenomenon. The current nomenclature for sigma factor encoding genes is confusing and should be revised.
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PMID:An inventory of genes encoding RNA polymerase sigma factors in 31 completely sequenced eubacterial genomes. 1176 73

When Escherichia coli cells enter stationary phase due to carbon starvation the synthesis of ribosomal proteins is rapidly repressed. In a DeltarelA DeltaspoT mutant, defective in the production of the alarmone guanosine tetraphosphate (ppGpp), this regulation of the levels of the protein synthesizing system is abolished. Using a proteomic approach we demonstrate that the production of the vast majority of detected E. coli proteins are decontrolled during carbon starvation in the DeltarelA DeltaspoT strain and that the starved cells behave as if they were growing exponentially. In addition we show that the inhibition of ribosome synthesis by the stringent response can be qualitatively mimicked by artificially lowering the levels of the housekeeping sigma factor, sigma(70). In other words, genes encoding the protein-synthesizing system are especially sensitive to reduced availability of sigma(70) programmed RNA polymerase. This effect is not dependent on ppGpp since lowering the levels of sigma(70) gives a similar but less pronounced effect in a ppGpp(0) strain. The data is discussed in view of the models advocating for a passive control of gene expression during stringency based on alterations in RNA polymerase availability.
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PMID:Underproduction of sigma 70 mimics a stringent response. A proteome approach. 1242 13

Some promoters, including the DmpR-controlled sigma(N)-dependent Po promoter, are effectively rendered silent in cells lacking the nutritional alarmone (p)ppGpp. Here we demonstrate that four mutations within the housekeeping sigma(D)-factor can restore sigma(N)-dependent Po transcription in the absence of (p)ppGpp. Using both in vitro and in vivo transcription competition assays, we show that all the four sigma(D) mutant proteins are defective in their ability to compete with sigma(N) for available core RNA polymerase and that the magnitude of the defect reflects the hierarchy of restoration of transcription from Po in (p)ppGpp-deficient cells. Consistently, underproduction of sigma(D) or overproduction of the anti-sigma(D) protein Rsd were also found to allow (p)ppGpp-independent transcription from the sigma(N)-Po promoter. Together with data from the direct effects of (p)ppGpp on sigma(N)-dependent Po transcription and sigma-factor competition, the results support a model in which (p)ppGpp serves as a master global regulator of transcription by differentially modulating alternative sigma-factor competition to adapt to changing cellular nutritional demands.
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PMID:The role of the alarmone (p)ppGpp in sigma N competition for core RNA polymerase. 1242 18

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