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)

Although tumor necrosis factor-alpha has been implicated in liver injury after both warm ischemia- and cold ischemia-reperfusion, it is unclear whether reactivity of the liver to these stimuli is similar with regard to cytokine expression. Here we compare the effects of warm and cold ischemia on tumor necrosis factor-alpha expression and test the hypothesis that cold ischemia preceding warm ischemia causes overexpression of this cytokine. Rat livers were flushed out with University of Wisconsin solution and subjected to varying periods of warm ischemia, cold ischemia, or cold ischemia plus warm ischemia followed by reperfusion using a blood-free perfusion model. Tumor necrosis factor-alpha and interleukin-10 release into the perfusate and bile were measured by ELISA, and expression of these cytokines and that of c-fos, c-jun, and c-myc were studied by reverse-transcriptase polymerase chain reaction. We found high levels of tumor necrosis factor-alpha in the perfusates of livers subjected to warm ischemia-reperfusion, whereas minimal or no tumor necrosis factor-alpha was detected in livers subjected to cold ischemia-reperfusion or to cold ischemia plus warm ischemia-reperfusion. Reverse-transcriptase polymerase chain reaction confirmed the above findings and showed that immediate early genes were expressed in reperfused groups of livers. Measurements of cytokine release into bile showed that neither tumor necrosis factor-alpha nor interleukin-10 were upregulated by cold ischemia-reperfusion. The results suggest that (1) warm ischemia- and cold ischemia-reperfusion of rat liver lead to very different outcomes with regard to tumor necrosis factor-alpha expression and (2) cold ischemia preceding warm ischemia prevents upregulation of tumor necrosis factor-alpha.
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PMID:Marked difference in tumor necrosis factor-alpha expression in warm ischemia- and cold ischemia-reperfusion of the rat liver. 1122 27

The RNA polymerase II (Pol II) of Schizosaccharomyces pombe is composed of 12 subunits. Subunit Rpb3 has sequence homology with the N-terminal domain of the prokaryotic alpha subunit, which plays a key role in RNA polymerase assembly. Together with the Rpb2 (the beta homologue) and Rpb11 (the second alpha homologue) subunits, Rpb3 constitutes a core subassembly (Rpb2-Rpb3-Rpb11) which corresponds to the the alpha2beta assembly intermediate of prokaryotic RNA polymerase. For the functional mapping of Rpb3, we made a collection of 12 heat-sensitive (Ts) or cold-sensitive (Cs) S. pombe mutants, each carrying a single mutation in one of the four conserved regions of Rpb3. The altered functions of six representative Pol II mutants containing the mutant Rpb3 were analyzed in vitro using an improved version of the GAL4-VP16 activator-dependent transcription system catalyzed by S. pombe cell extracts. The transcription activity by the extracts from Rpb3 mutants decreased to varying extents after heat treatment; but the extracts from Rpb3 mutants which had mutations in the eukaryote-specific conserved regions B and C regained their activity by the addition of GAL4-VP16, to a larger extent than those from the region A and D mutants. We propose that both terminal regions (A and D) play important roles in RNA polymerase assembly, while the central portion (regions B and C) is involved in activated transcription.
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PMID:Functional analysis of RNA polymerase II Rpb3 mutants of the fission yeast Schizosaccharomyces pombe. 1145 50

The large subunit of ribosomes in Bacillus subtilis was tagged by generation of a fusion of ribosomal protein L1 to blue fluorescent protein (BFP). The fusion was fully active and localized around the nucleoids, predominantly close to the cell poles, in growing cells. However, in stationary phase cells, and in growing cells treated with rifampicin, L1-BFP was distributed throughout the cells, in contrast to cells treated with chloramphenicol, in which ribosomes still localized around nucleoids. These data show that specific localization of ribosomes is not due to nucleoid exclusion, but is a dynamic process due to active synthesis of RNA. Dual labelling of ribosomes and cold shock proteins (CSPs) tagged with green fluorescent protein (GFP) revealed colocalization of both protein classes. CSPs are implicated in coupling of transcription with translation and may bridge the spatial separation of ribosomes and nucleoid-associated RNA polymerase.
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PMID:Specific polar localization of ribosomes in Bacillus subtilis depends on active transcription. 1146 49

Mycobacterium tuberculosis is the cause of tuberculosis in humans, a disease that affects over a one-third of the world's population. This slow-growing pathogen has only one ribosomal RNA operon, thus making its transcriptional apparatus a fundamentally interesting target for drug discovery. NusA binds to RNA polymerase and modulates several of the ribosomal RNA transcriptional processes. Here, we report the crystal structure of NusA, and reveal that the molecule consists of four domains. They are organised as two distinct entities. The N-terminal domain (residues 1 to 99) that resembles the B chain of the Rad50cd ATP binding cassette-ATPase (ABC-ATPase) and a C-terminal module (residues 108 to 329) consisting of a ribosomal S1 protein domain followed by two K homology domains. The S1 and KH domains are tightly integrated together to form an extensive RNA-binding structure, but are flexibly tethered to the N-terminal domain. The molecule's surfaces and architecture provide insights into RNA and polymerase interactions and the mechanism of pause site discrimination. They also allow us to rationalize certain termination-defective and cold shock-sensitive mutations in the nusA gene that have been studied in Escherichia coli.
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PMID:Crystal structure of the transcription elongation/anti-termination factor NusA from Mycobacterium tuberculosis at 1.7 A resolution. 1174 25

We are using biochemical and genetic approaches to study Rtf1 and the Spt4-Spt5 complex, which independently have been implicated in transcription elongation by RNA polymerase II. Here, we report a remarkable convergence of these studies. First, we purified Rtf1 and its associated yeast proteins. Combining this approach with genetic analysis, we show that Rtf1 and Leo1, a protein of unknown function, are members of the RNA polymerase II-associated Paf1 complex. Further analysis revealed allele-specific genetic interactions between Paf1 complex members, Spt4-Spt5, and Spt16-Pob3, the yeast counterpart of the human elongation factor FACT. In addition, we independently isolated paf1 and leo1 mutations in an unbiased genetic screen for suppressors of a cold-sensitive spt5 mutation. These genetic interactions are supported by physical interactions between the Paf1 complex, Spt4-Spt5 and Spt16-Pob3. Finally, we found that defects in the Paf1 complex cause sensitivity to 6-azauracil and diminished PUR5 induction, properties frequently associated with impaired transcription elongation. Taken together, these data suggest that the Paf1 complex functions during the elongation phase of transcription in conjunction with Spt4-Spt5 and Spt16-Pob3.
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PMID:The Paf1 complex physically and functionally associates with transcription elongation factors in vivo. 1192 60

RLR1 (THO2) encodes a novel, phylogenetically-conserved KEKE motif protein involved in transcription and transcription-associated recombination in Saccharomyces cerevisiae. One characteristic aspect of RLR1 function is its requirement for expression of the Escherichia coli lacZ reporter gene regardless of the yeast promoter to which it is fused. rlr1-1 was originally isolated (employing lacZ as a transcriptional reporter) as a suppressor of a mutation in the gene encoding Sin4, a subunit of the Mediator subcomplex of the RNA polymerase II (PolII) transcriptional machinery. To clarify the function of Rlr1, we performed a genetic screen for dosage-dependent suppressors of the cold-sensitive phenotype of rlr1-1. From this screen we isolated SUB2, encoding a conserved DEAD-box RNA helicase family member having roles in both pre-mRNA splicing and mRNA export in yeast, flies, and humans. We demonstrate that Sub2, like Rlr1, is required for lacZ to be expressed in yeast, and that sub2 mutants manifest rlr1-like growth defects. Our results are consistent with a hypothesis where expression of lacZ fusions in yeast preferentially requires a Sub2-mediated mRNP assembly/export pathway linked to transcription via Rlr1.
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PMID:DEAD-box RNA helicase Sub2 is required for expression of lacZ fusions in Saccharomyces cerevisiae and is a dosage-dependent suppressor of RLR1 (THO2). 1203 90

Cold, hyperosmolarity, and abscisic acid (ABA) signaling induce RD29A expression, which is an indicator of the plant stress adaptation response. Two nonallelic Arabidopsis thaliana (ecotype C24) T-DNA insertional mutations, cpl1 and cpl3, were identified based on hyperinduction of RD29A expression that was monitored by using the luciferase (LUC) reporter gene (RD29ALUC) imaging system. Genetic linkage analysis and complementation data established that the recessive cpl1 and cpl3 mutations are caused by T-DNA insertions in AtCPL1 (Arabidopsis C-terminal domain phosphatase-like) and AtCPL3, respectively. Gel assays using recombinant AtCPL1 and AtCPL3 detected innate phosphatase activity like other members of the phylogenetically conserved family that dephosphorylate the C-terminal domain of RNA polymerase II (RNAP II). cpl1 mutation causes RD29ALUC hyperexpression and transcript accumulation in response to cold, ABA, and NaCl treatments, whereas the cpl3 mutation mediates hyperresponsiveness only to ABA. Northern analysis confirmed that LUC transcript accumulation also occurs in response to these stimuli. cpl1 plants accumulate biomass more rapidly and exhibit delayed flowering relative to wild type whereas cpl3 plants grow more slowly and flower earlier than wild-type plants. Hence AtCPL1 and AtCPL3 are negative regulators of stress responsive gene transcription and modulators of growth and development. These results suggest that C-terminal domain phosphatase regulation of RNAP II phosphorylation status is a focal control point of complex processes like plant stress responses and development. AtCPL family members apparently have both unique and overlapping transcriptional regulatory functions that differentiate the signal output that determines the plant response.
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PMID:C-terminal domain phosphatase-like family members (AtCPLs) differentially regulate Arabidopsis thaliana abiotic stress signaling, growth, and development. 1214 34

Human rhinoviruses (HRV) represent the single most important causative agent of the common cold. The HRV genome encodes an RNA-dependent RNA polymerase (RdRp) designated 3D polymerase that is required for replication of the HRV RNA genome. We have expressed and purified recombinant HRV-16 3D polymerase to near homogeneity from Escherichia coli transformed with an expression plasmid containing the full-length 460 amino acid HRV-16 3D sequence with a methionine at the N-terminus and a glycine-serine linker followed by a 6-histidine affinity tag at the C-terminus. The purified recombinant protein has rifampicin-resistant activity in a poly(A)-dependent poly(U) polymerase assay while corresponding fractions similarly purified from E. coli transformed with an expression plasmid without the HRV-16 3D sequence showed no activity. The optimal conditions for temperature, pH, divalent cations Mg(2+) and Mn(2+), and KCl were determined. The recombinant protein has RNA polymerase activity on homopolymeric templates poly(A) and poly(C) and heteropolymeric RNA templates primed with either RNA or DNA oligonucleotide primers or self-primed by a copy-back mechanism. A unique, secondary structureless heteropolymeric RNA template that is an efficient substrate was developed to facilitate kinetic characterizations of the enzyme. In the presence of Mg(2+), the enzyme displayed strong base and sugar specificity. However, when Mg(2+) was replaced by Mn(2+) specificity for ribonucleotides was lost, utilization of deoxynucleotides became possible and primer-independent activity was observed on the poly(C) template. Zn(2+) was found to inhibit HRV-16 3D polymerase with an IC(50) as low as 0.6 microM by a mechanism distinct from the magnesium ion stimulation. The activity of this 6His-tagged HRV-16 3D polymerase was compared with that of a recombinant HRV-16 3D polymerase expressed without the 6His-tag and was found to be identical. The availability of recombinant rhinovirus RdRp in a purified form will facilitate the structure-function analysis of this enzyme as well as the identification of specific inhibitors to the rhinovirus 3D polymerase that have therapeutic value in the treatment of the common cold.
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PMID:Biochemical characterization of rhinovirus RNA-dependent RNA polymerase. 1236 17

To study the preparation and cleavage of hairpin ribozyme (HpRz) directed against the transcript of HBV core region in vitro, HRz gene designed by computer targeting the transcript of HBV core gene was cloned into the vector p1.5 between 5'-cis-Rz and 3'-cis-Rz. 32P-labeled HpRz transcript proved whether the vector fit for the preparation of hairpin ribozyme. 32P-labeled pKC transcript containing HBV core region as targets-RNA was transcribed by using T7 RNA polymerase and purified by PAGE. Cold HpRz transcript was incubated with 32P-labeled target-RNAs under different conditions and radioautographed after denaturing polyacrylamide gel electrophoresis. The results showed that HpRz had the ability of cleavage at 37 degrees C and 12 mmol/L MgCl2 and the design of ribozyme was correct. It is concluded that HpRz prepared in vitro possesses specific catalytic activity, indicating that it is possible for HpRz to intracellularly inhibit the replication of HBV. It may be developed into a nucleic acid drug in the treatment of hepatitis B in the future.
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PMID:Anti-viral activity of hairpin ribozyme directed against HBV core region in vitro. 1253 81

Due to the scarcity of available human livers, porcine hepatocytes are currently being evaluated as a xenogeneic cell source for extracorporeal bioartificial liver (BAL). Hypothermic storage of isolated porcine hepatocytes could support stocking of cell-loaded bioreactors for BAL use and may provide bioreactors ready to be used at the patient's bedside. For the development of this technology, it is of utmost importance to ensure cell viability and differentiated functions after low-temperature storage and following warm reperfusion. We compared cell viability, functional activity and apoptosis in isolated porcine hepatocytes which were perfused within a radial-flow bioreactor (RFB), stored at 4 degrees C and then reperfused at 37 degrees C. RFBs were loaded with 8 x 10(9), > or = 90% viable hepatocytes at 37 degrees C for 3 h. RFBs were then flushed with 4 degrees C University of Wisconsin solution (UW) and subsequently stored for 24 h or 48 h. RFBs were then reperfused for 8 h with recirculating medium plus serum at 37 degrees C . Cytochrome P450 (CYP) activity was studied before and after cold storage by means of monoethylglycinexylide (MEGX) detection in the effluent medium, after repeated lidocaine injections. After reperfusion experiments, hepatocytes were harvested for total RNA isolation. Reverse transcriptase-polymerase chain reaction (RT-PCR) was used in order to amplify specific mRNAs for Bcl-2 and Bax genes, by using appropriate primers; beta-actin primers were used as control. Total RNA was extracted by northern blotting analysis and for Bcl-2, Bax and beta-actin RNA messenger detection, RT-PCR amplification was used. Freshly isolated hepatocytes perfused into the RFB showed a progressive increase of MEGX while a loss in Bax expression was paralleled by an increase in Bcl-2 expression, in comparison to starting hepatocytes. After 4 degrees C storage and warm reperfusion, MEGX production was preserved in 24 h- and 48 h-stored bioreactors as well as a sharp increase of Bcl-2 and a decrease of Bax mRNAs. Our study suggests that refrigeration of hepatocyte-bioreactors is a suitable strategy to maintain both viability and function of isolated hepatocytes, for up to 48 h a time-length that is compatible with long-distance delivery of ready-to-use bioreactors.
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PMID:Modulation of pro-apoptotic (Bax) and anti-apoptotic (Bcl-2) gene expression in isolated porcine hepatocytes perfused within a radial-flow bioreactor after low-temperature storing. 1265 48

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