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 180-amino acid core of the TATA-binding protein (TBPcore) is conserved from Archae bacteria to man. Vertebrate TBPs contain, in addition, a large and highly conserved N-terminal region that is not found in other phyla. We have generated a line of mice in which the tbp allele is replaced with a version, tbp(Delta N), which lacks 111 of 135 N-terminal amino acid residues. Most tbp(Delta N/Delta N) fetuses die in midgestation. To test whether a disruption of general cellular processes contributed to this fetal loss, primary fibroblast cultures were established from +/+, Delta N/+, and Delta N/Delta N fetuses. The cultures exhibited no genotype-dependent differences in proliferation or in expression of the proliferative markers dihydrofolate reductase (DHFR) mRNA (S phase-specific) and cdc25B mRNA (G(2)-specific). The mutation had no effect on transcription initiation site fidelity by either RNA polymerase II (pol II) or pol III. Moreover, the mutation did not cause differences in levels of U6 RNA, a pol III-dependent component of the splicing machinery, in mRNA splicing efficiency, in expression of housekeeping genes from either TATA-containing or TATA-less promoters, or in global gene expression. Our results indicated that general eukaryotic cell functions are unaffected by deletion of these vertebrate-specific sequences from TBP. Thus, all activities of this polypeptide domain must either be compensated for by redundant activities or be restricted to situations that are not represented by primary fibroblasts.
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PMID:Fundamental cellular processes do not require vertebrate-specific sequences within the TATA-binding protein. 1247 Oct 23

Like ageing insects, worms and mammals, growth-arrested Escherichia coli cells accumulate oxidatively damaged proteins. In the early stages of the E. coli stationary phase, this oxidation is caused by an increased production of aberrant proteins, which are especially susceptible to oxidative attack. This route of oxidation appears to elude the classical oxidative defence proteins. The failure of growth-arrested cells fully to combat oxidative damage may also be linked to a trade-off between proliferation activities (primarily directed by the housekeeping sigma factor, sigma70) and maintenance (primarily directed by sigmaS). This trade-off is regulated by the alarmone ppGpp such that elevated ppGpp levels allow sigmaS, and other alternative sigma factors, to work in concert with sigma70 by shifting their relative competitiveness for RNA polymerase binding. However, even during elevated ppGpp levels and stasis, E. coli cells maintain a basal transcription of housekeeping sigma70-dependent genes, and resources are thus partly diverted from maintenance and stress defences to activities relating to proliferation. An alternative view argues for ppGpp being involved in programmed cell death upon growth arrest by regulating chromosomally located toxin-antitoxin loci. Thus, models of bacterial senescence, like those dealing with ageing in higher organisms, encompass both stochastic deterioration theories and programming theories. This review summarizes and evaluates these models.
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PMID:Conditional senescence in bacteria: death of the immortals. 1265 42

We describe the successful use of the reverse genetic technique RNA interference (RNAi) to investigate gene function in the human filarial nematode parasite Brugia malayi. We used fluorescently labelled double stranded RNA (dsRNA) to demonstrate that 300 bp molecules are able to enter adult females in culture while they remain excluded from microfilariae (mf). We have developed an optimised microvolume culture system to allow the exposure of parasites to high concentrations of dsRNA for extended periods. Culturing of adult female parasites in this system for 24h does not significantly reduce parasite lifespan or mf release in culture. Three B. malayi genes, beta-tubulin (Bm-tub-1), RNA polymerase II large subunit (Bm-ama-1) and B. malayi mf sheath protein 1/mf22 (Bm-shp-1) were targeted by soaking adult female B. malayi in dsRNA complementary to these transcripts in the optimised culture system. Targeting of the two housekeeping genes Bm-tub-1 and Bm-ama-1 led to a reduction in the levels of their transcripts, as assessed by reverse transcriptase coupled PCR (RT-PCR), and resulted in parasite death in culture. In contrast, targeting of the Bm-shp-1 gene was not lethal to adult females in culture. A marked reduction in mf release was observed for shp-1 RNAi parasites compared to controls and in addition 50% of mf released did not have fully elongated sheaths. This "short" phenotype correlated with the loss of the stockpiled shp-1 transcript from developing mf in treated adult female gonads. From these data we conclude that RNAi may be a useful method for assessment of drug target potential of genes identified in filarial gene discovery projects.
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PMID:Use of RNA interference to investigate gene function in the human filarial nematode parasite Brugia malayi. 1279 5

Stress conditions such as heat shock alter the transcriptional profile in all organisms. In Escherichia coli the heat shock transcription factor, sigma 32, out-competes upon temperature up-shift the housekeeping sigma-factor, sigma 70, for binding to core RNA polymerase and initiates heat shock gene transcription. To investigate possible heat-induced conformational changes in sigma 32 we performed amide hydrogen (H/D) exchange experiments under optimal growth and heat shock conditions combined with mass spectrometry. We found a rapid exchange of around 220 of the 294 amide hydrogens at 37 degrees C, indicating that sigma 32 adopts a highly flexible structure. At 42 degrees C we observed a slow correlated exchange of 30 additional amide hydrogens and localized it to a helix-loop-helix motif within domain sigma 2 that is responsible for the recognition of the -10 region in heat shock promoters. The correlated exchange is shown to constitute a reversible unfolding with a half-life of about 30 min due to a temperature-dependent decrease in stabilization energy. We propose that this gradual decrease in stabilization energy of domain sigma 2 with increasing temperatures facilitates the unfolding of sigma 32 by the AAA+ protease FtsH thereby decreasing its half-life. Taken together our data show that the sigma 2 domain of sigma 32 can act as a thermosensor, which might be important for the heat shock regulation.
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PMID:Mapping temperature-induced conformational changes in the Escherichia coli heat shock transcription factor sigma 32 by amide hydrogen exchange. 1450 87

Promoter recognition in eubacteria is carried out by the initiation factor sigma, which binds RNA polymerase and initiates transcription. Cells have one housekeeping factor and a variable number of alternative sigma factors that possess different promoter-recognition properties. The cell can choose from its repertoire of sigmas to alter its transcriptional program in response to stress. Recent structural information illuminates the process of initiation and also shows that the two key sigma domains are structurally conserved, even among diverse family members. We use the sigma repertoire of Escherichia coli, Bacillus subtilis, Streptomyces coelicolor, and cyanobacteria to illustrate the different strategies utilized to organize transcriptional space using multiple sigma factors.
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PMID:Multiple sigma subunits and the partitioning of bacterial transcription space. 1452 87

The sigmas subunit of Escherichia coli RNA polymerase holoenzyme (EsigmaS) is a key factor of gene expression upon entry into stationary phase and in stressful conditions. The selectivity of promoter recognition by EsigmaS and the housekeeping Esigma70 is as yet not clearly understood. We used a genetic approach to investigate the interaction of sigmaS with its target promoters. Starting with down-promoter variants of a sigmaS promoter target, osmEp, altered in the -10 or -35 elements, we isolated mutant forms of sigmaS suppressing the promoter defects. The activity of these suppressors on variants of osmEp and ficp, another target of sigmaS, indicated that sigmaS is able to interact with the same key features within a promoter sequence as sigma70. Indeed, (i) sigmaS can recognize the -35 element of some but not all its target promoters, through interactions with its 4.2 region; and (ii) amino acids within the 2.4 region participate in the recognition of the -10 element. More specifically, residues Q152 and E155 contribute to the strong preference of sigmaS for a C in position -13 and residue R299 can interact with the -31 nucleotide in the -35 element of the target promoters.
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PMID:Interactions between the 2.4 and 4.2 regions of sigmaS, the stress-specific sigma factor of Escherichia coli, and the -10 and -35 promoter elements. 1470 42

It was previously shown that the Rhodobacter capsulatus NtrC enhancer-binding protein activates the R. capsulatus housekeeping RNA polymerase but not the Escherichia coli RNA polymerase at the nifA1 promoter. We have tested the hypothesis that this activity is due to the high G+C content of the -10 sequence. A comparative analysis of R. capsulatus and other alpha-proteobacterial promoters with known transcription start sites suggests that the G+C content of the -10 region is higher than that for E. coli. Both in vivo and in vitro results obtained with nifA1 promoters with -10 and/or -35 variations are reported here. A major conclusion of this study is that alpha-proteobacteria have evolved a promiscuous sigma factor and core RNA polymerase that can transcribe promoters with high-GC -10 regions in addition to the classic E. coli Pribnow box. To facilitate studies of R. capsulatus transcription, we cloned and overexpressed all of the RNA polymerase subunits in E. coli, and these were reconstituted in vitro to form an active, recombinant R. capsulatus RNA polymerase with properties mimicking those of the natural polymerase. Thus, no additional factors from R. capsulatus are necessary for the recognition of high-GC promoters or for activation by R. capsulatus NtrC. The addition of R. capsulatus sigma(70) to the E. coli core RNA polymerase or the use of -10 promoter mutants did not facilitate R. capsulatus NtrC activation of the nifA1 promoter by the E. coli RNA polymerase. Thus, an additional barrier to activation by R. capsulatus NtrC exists, probably a lack of the proper R. capsulatus NtrC-E. coli RNA polymerase (protein-protein) interaction(s).
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PMID:Rhodobacter capsulatus nifA1 promoter: high-GC -10 regions in high-GC bacteria and the basis for their transcription. 1472

TFIID and SAGA share a common set of TAFs, regulate chromatin, and deliver TBP to promoters. Here we examine their relationship within the context of the Saccharomyces cerevisiae genome-wide regulatory network. We find that while TFIID and SAGA make overlapping contributions to the expression of all genes, TFIID function predominates at approximately 90% and SAGA at approximately 10% of the measurable genome. Strikingly, SAGA-dominated genes are largely stress induced and TAF independent, and are downregulated by the coordinate action of a variety of chromatin, TBP, and RNA polymerase II regulators. In contrast, the TFIID-dominated class is less regulated, but is highly dependent upon TAFs, including those shared between TFIID and SAGA. These two distinct modes of transcription regulation might reflect the need to balance inducible stress responses with the steady output of housekeeping genes.
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PMID:A genome-wide housekeeping role for TFIID and a highly regulated stress-related role for SAGA in Saccharomyces cerevisiae. 1499 26

The plastid accD gene encoding the carboxyltransferase b subunit of acetyl-coenzyme A carboxylase (ACCase) was cloned from potato. Potato accD (saccD) is 2487 bp in length with a 614 bp 5 cent upstream promoter region and an ORF of 1524 bp, corresponding to a polypeptide of 507 amino acids. The N-terminal region lacks recognizable motifs, while the C-terminal regions contains five motifs. Among these is motif II, PLIIVCASGGARMQE, the sole motif present in all available accD sequences of plants and animals, and of E. coli, suggesting that this motif may correspond to the catalytic site. saccD has the typical prokaryotic promoter signatures, TTGACA and TATCAA, which are -35 and -10-like sequences for plastid-encoded RNA polymerase (PEP), at positions -184 and -160, respectively. However, it seems to be transcribed by the nucleus-encoded RNA polymerase because it is expressed in tuber and root, and in the dark (under crippled PEP conditions) and its transcription initiation sites do not correspond to those of PEP. saccD is expressed in all potato tissues, i.e., leaf, stem, root, and tuber, and its transcript is produced at a similar rate in the light and dark, at different developmental stages, and during growth in the presence of different sugars and carbon sources. Taken together, our results suggest that potato accD is a housekeeping gene constitutively expressed in both chloroplast and amyloplast.
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PMID:Characterization of the plastid-encoded carboxyltransferase subunit (accD) gene of potato. 1523 16

Reverse transcriptase-polymerase chain reaction (RT-PCR) is a powerful, sensitive, and rapid method to monitor small amounts of nucleic acids. This is of particular interest for small amounts of cells, as in cartilage. We present here two protocols to isolate total RNA and a protocol to study matrix metalloproteinase and type II collagen gene expression from chondrocytes of human origin. Specific gene expression is revealed on an ethidium bromide-containing agarose gel on an ultraviolet plate and normalized to that of a housekeeping gene.
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PMID:Semiquantitative analysis of gene expression in cultured chondrocytes by RT-PCR. 1528 May 88

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