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)

In the Gram-positive, antibiotic-producing bacterium Streptomyces coelicolor A3(2), the thiol-disulphide status of the hyphae is controlled by a novel regulatory system consisting of a sigma factor, sigmaR, and its cognate anti-sigma factor, RsrA. Oxidative stress induces intramolecular disulphide bond formation in RsrA, which causes it to lose affinity for sigmaR, thereby releasing sigmaR to activate transcription of the thioredoxin operon, trxBA. Here, we exploit a preliminary consensus sequence for sigmaR target promoters to identify 27 new sigmaR target genes and operons, thereby defining the global response to disulphide stress in this organism. Target genes related to thiol metabolism encode a second thioredoxin (TrxC), a glutaredoxin-like protein and enzymes involved in the biosynthesis of the low-molecular-weight thiol-containing compounds cysteine and molybdopterin. In addition, the level of the major actinomycete thiol buffer, mycothiol, was fourfold lower in a sigR null mutant, although no candidate mycothiol biosynthetic genes were identified among the sigmaR targets. Three sigmaR target genes encode ribosome-associated products (ribosomal subunit L31, ppGpp synthetase and tmRNA), suggesting that the translational machinery is modified by disulphide stress. The product of another sigmaR target gene was found to be a novel RNA polymerase-associated protein, RbpA, suggesting that the transcriptional machinery may also be modified in response to disulphide stress. We present DNA sequence evidence that many of the targets identified in S. coelicolor are also under the control of the sigmaR homologue in the actinomycete pathogen Mycobacterium tuberculosis.
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PMID:Defining the disulphide stress response in Streptomyces coelicolor A3(2): identification of the sigmaR regulon. 1173 43

Classically, the functional product of coding genes is a protein whose synthesis is directed by an mRNA-template. However, in the last few years several genes yielding an mRNA-like non-coding RNA as a functional product have been identified. In most cases these transcripts are synthesized by the RNA polymerase II, capped, spliced and polyadenylated, like classical mRNA. These latter have non-conserved open reading frames and seem to be untranslated. Consequently, it has been proposed and admitted that these genes act at the RNA level, and are so-called 'riboregulators'. H19 belongs to this class of gene and its role remains a matter of debate: for some authors it is an oncogene, for others a tumour suppressor. Here, we demonstrate, using a proteomic approach, that an H19 overexpression in human cancerous mammary epithelial cells stably transfected with genomic DNA containing the entire H19 gene is responsible for positively regulating at the post-transcriptional level the thioredoxin, a key protein of the cellular redox metabolism. Interestingly, this protein accumulates in many cancerous tissues, such as breast carcinomas in which we have also demonstrated an overexpression of the H19 gene.
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PMID:Thioredoxin post-transcriptional regulation by H19 provides a new function to mRNA-like non-coding RNA. 1189 92

The extracytoplasmic function (ECF) sigma factor sigma(R) is a global regulator of redox homeostasis in the antibiotic-producing bacterium Streptomyces coelicolor, with a similar role in other actinomycetes such as Mycobacterium tuberculosis. Normally maintained in an inactive state by its bound anti-sigma factor RsrA, sigma(R) dissociates in response to intracellular disulphide-stress to direct core RNA polymerase to transcribe genes, such as trxBA and trxC that encode the enzymes of the thioredoxin disulphide reductase pathway, that re-establish redox homeostasis. Little is known about where RsrA binds on sigma(R) or how it suppresses sigma(R)-dependent transcriptional activity. Using a combination of proteolysis, surface-enhanced laser desorption ionisation mass spectrometry and pull-down assays we identify an N-terminal, approximately 10kDa domain (sigma(RN)) that encompasses region 2 of sigma(R) that represents the major RsrA binding site. We show that sigma(RN) inhibits transcription by an unrelated sigma factor and that this inhibition is relieved by RsrA binding, reaffirming that region 2 is involved in binding to core RNA polymerase but also demonstrating that the likely mechanism by which RsrA inhibits sigma(R) activity is by blocking this association. We also report the 2.4A resolution crystal structure of sigma(RN) that reveals extensive structural conservation with the equivalent region of sigma(70) from Escherichia coli as well as with the cyclin-box, a domain-fold found in the eukaryotic proteins TFIIB and cyclin A. sigma(RN) has a propensity to aggregate, due to steric complementarity of oppositely charged surfaces on the domain, but this is inhibited by RsrA, an observation that suggests a possible mode of action for RsrA which we compare to other well-studied sigma factor-anti-sigma factor systems.
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PMID:Identification and structure of the anti-sigma factor-binding domain of the disulphide-stress regulated sigma factor sigma(R) from Streptomyces coelicolor. 1238 17

The Spx protein of Bacillus subtilis represses activator-stimulated transcription by interacting with the C-terminal domain of RNA polymerase (RNAP) alpha subunit. Its concentration increases in cells lacking the ATP-dependent protease, ClpXP, resulting in severe effects on growth and developmental processes. Microarray analysis was undertaken to identify genes that are induced or repressed when Spx interacts with RNAP. The induced genes included those encoding products known to function in maintaining thiol homeostasis. Two genes, thioredoxin (trxA) and thioredoxin reductase (trxB), are transcriptionally induced under conditions of thiol-specific oxidative (disulfide) stress by a mechanism involving Spx-RNAP interaction. Disulfide stress also results in an increase in Spx-dependent transcriptional repression. The increase in Spx activity in cells encountering disulfide stress is due in part to a posttranscriptional mechanism of spx control resulting in an increase in Spx concentration. An spx null mutant and a strain bearing an allele of rpoA that prevents Spx-RNAP interaction show hypersensitivity to disulfide stress. From these results, it is proposed that Spx is an activator that mobilizes the operations necessary to reverse the effects of oxidative damage, but it also serves as a negative regulator that causes the postponement of developmental programs and energy-consuming growth-related functions while the cell copes with the period of stress.
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PMID:Spx-dependent global transcriptional control is induced by thiol-specific oxidative stress in Bacillus subtilis. 1459 97

Divercin V41, a class IIa bacteriocin with strong antilisterial activity, is produced by Carnobacterium divergens V41. To express a recombinant version of divercin V41, we constructed a synthetic gene that encodes the mature divercin V41 peptide and then overexpressed the gene in pET-32b by using the T7 RNA polymerase promoter in the Escherichia coli Origami (DE3)(pLysS) strain. The DvnRV41 peptide was expressed as a translational fusion protein with thioredoxin and accumulated in the cell cytoplasm in a soluble anti-Listeria active form. The fusion protein was then purified and cleaved to obtain pure, soluble, folded DvnRV41 (462 microg per 20 ml of culture). This paper describes the first design of a synthetic bacteriocin gene and the first bacteriocin expressed in the E. coli cytoplasm.
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PMID:Heterologous expression and purification of active divercin V41, a class IIa bacteriocin encoded by a synthetic gene in Escherichia coli. 1520 30

It is well known that the ykvU-ykvV operon is under the regulation of the sigma(E)-associated RNA polymerase (Esigma(E)). In our study, we observed that ykvV is transcribed together with the upstream ykvU gene by Esigma(E) in the mother cell and monocistronically under Esigma(G) control in the forespore. Interestingly, alternatively expressed ykvV in either the forespore or the mother cell increased the sporulation efficiency in the ykvV background. Studies show that the YkvV protein is a member of the thioredoxin superfamily and also contains a putative Sec-type secretion signal at the N terminus. We observed efficient sporulation in a mutant strain obtained by replacing the putative signal peptide of YkvV with the secretion signal sequence of SleB, indicating that the putative signal sequence is essential for spore formation. These results suggest that YkvV is capable of being transported by the putative Sec-type signal sequence into the space between the double membranes surrounding the forespore. The ability of ykvV expression in either compartment to complement is indeed intriguing and further introduces a new dimension to the genetics of B. subtilis spore formation. Furthermore, electron microscopic observation revealed a defective cortex in the ykvV disruptant. In addition, the expression levels of sigma(K)-directed genes significantly decreased despite normal sigma(G) activity in the ykvV mutant. However, immunoblotting with the anti-sigma(K) antibody showed that pro-sigma(K) was normally processed in the ykvV mutant, indicating that YkvV plays an important role in cortex formation, consistent with recent reports. We therefore propose that ykvV should be renamed spoIVH.
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PMID:spoIVH (ykvV), a requisite cortex formation gene, is expressed in both sporulating compartments of Bacillus subtilis. 1529 47

The Spx protein is indispensable for survival of Bacillus subtilis under disulphide stress. Its interaction with the alpha-subunit of RNA polymerase is required for transcriptional induction of genes that function in thiol homeostasis, such as thioredoxin (trxA) and thioredoxin reductase (trxB). The N-terminal end of Spx contains a Cys-X-X-Cys (CXXC) motif, which is a likely target for redox-sensitive control. We show here that Spx directly activates trxA and -B transcription by interacting with the RNA polymerase alpha-subunit, but it does so only under an oxidized condition. The transcriptional activation by Spx requires formation of an intramolecular disulphide bond between two cysteine residues that reside in the CXXC motif. The mechanism of Spx-dependent transcriptional activation is unique in that it does not involve initial Spx-DNA interaction.
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PMID:Redox-sensitive transcriptional control by a thiol/disulphide switch in the global regulator, Spx. 1565 66

Chlamydomonas reinhardtii EST clones encoding a protein highly similar to prokaryotic sigma factors and plant sigma-like factors (SLFs) were used to isolate a BAC clone containing the full-length gene CrRpoD. The gene is likely to be single-copy, in contrast to small gene families encoding SLFs in plants. The CrRpoD mRNA comprises 3,033 nt with an open reading frame of 2,256 nt, encoding a putative protein of 752 amino acids with a molecular mass of 80.2 kDa. The sequence contains conserved regions 2-4 typically found in sigma factors, and an unusually long amino terminal extension, which by in silico analysis has properties of a chloroplast transit peptide. Expression of CrRpoD was confirmed by immunodetection of a 85 kDa polypeptide in a preparation enriched for chloroplast proteins. To demonstrate functionality in transcription initiation, a recombinant CrRpoD-thioredoxin fusion protein was reconstituted with E. coli RNA polymerase core enzyme and tested in vitro. This chimeric holoenzyme specifically bound the spinach psbA and Chlamydomonas rrn16 promoters in gel mobility shift assays and exhibited specific transcription initiation from the same two promoters, providing evidence for the role of CrRpoD as a functional transcription factor.
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PMID:Chlamydomonas reinhardtii encodes a single sigma70-like factor which likely functions in chloroplast transcription. 1645 12

The Spx protein of Bacillus subtilis interacts with RNA polymerase (RNAP) to activate transcription initiation in response to thiol-oxidative stress. Protein-DNA cross-linking analysis of reactions containing RNAP, Spx and trxA (thioredoxin) or trxB (thioredoxin reductase) promoter DNA was undertaken to uncover the organization of the Spx-activated transcription initiation complex. Spx induced contact between the RNAP sigma(A) subunit and the -10 promoter sequence of trxA and B, and contact of the betabeta' subunits with core promoter DNA. No Spx-DNA contact was detected. Spx mutants, Spx(C10A) and Spx(G52R.), or RNAP alpha C-terminal domain mutants that impair productive Spx-RNAP interaction did not induce heightened sigma and betabeta' contact with the core promoter. Deletion analysis and the activity of hybrid promoter constructs having upstream trxB DNA fused at positions -31, -36 and -41 of the srf (surfactin synthetase) promoter indicated that a cis-acting site between -50 and -36 was required for Spx activity. Mutations at -43 and -44 of trxB abolished Spx-dependent transcription and Spx-induced cross-linking between the sigma subunit and the -10 region. These data are consistent with a model that Spx activation requires contact between the Spx/RNAP complex and upstream promoter DNA, which allows Spx-induced engagement of the sigma and large subunits with the core promoter.
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PMID:Activation of transcription initiation by Spx: formation of transcription complex and identification of a Cis-acting element required for transcriptional activation. 1868 74

Recently, we identified Txnip (thioredoxin-interacting protein) as a mediator of glucotoxic beta cell death and discovered that lack of Txnip protects against streptozotocin- and obesity-induced diabetes by preventing beta cell apoptosis and preserving endogenous beta cell mass. Txnip has therefore become an attractive target for diabetes therapy, but although we have found that txnip transcription is highly induced by glucose through a unique carbohydrate response element, the factors controlling this effect have remained unknown. Using transient transfection experiments, we now show that overexpression of the carbohydrate response element-binding protein (ChREBP) transactivates the txnip promoter, whereas ChREBP knockdown by small interfering RNA completely blunts glucose-induced txnip transcription. Moreover, chromatin immunoprecipitation demonstrated that glucose leads to a dose- and time-dependent recruitment of ChREBP to the txnip promoter in vivo in INS-1 beta cells as well as human islets. Furthermore, we found that the co-activator and histone acetyltransferase p300 co-immunoprecipitates with ChREBP and also binds to the txnip promoter in response to glucose. Interestingly, this is associated with specific acetylation of histone H4 and recruitment of RNA polymerase II as measured by chromatin immunoprecipitation. Thus, with this study we have identified ChREBP as the transcription factor that mediates glucose-induced txnip expression in human islets and INS-1 beta cells and have characterized the chromatin modification associated with glucose-induced txnip transcription. In addition, the results reveal for the first time that ChREBP interacts with p300. This may explain how ChREBP induces H4 acetylation and sheds new light on glucose-mediated regulation of chromatin structure and transcription.
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PMID:Glucose-stimulated expression of Txnip is mediated by carbohydrate response element-binding protein, p300, and histone H4 acetylation in pancreatic beta cells. 1941 Dec 49

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