Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rabies virus M protein was expressed in Escherichia coli in the form of a fusion protein with maltose binding protein (MBP) and purified by amylose affinity column chromatography after extraction. In order to investigate the possible regulatory role of M protein in viral transcription, an assay system for rabies virion-associated transcriptase activity was established by using the ribonucleoprotein (RNP) cores prepared from purified virions. Analysis of the products of the transcription assay system showed that the products are sensitive to RNase and are positive-strand RNA. Addition of the fusion protein to the system after cleavage with a proteinase Factor Xa (FXa), which cleaves the fusion protein into the M protein and MBP, resulted in an efficient and dose-dependent inhibition of the transcription. Furthermore, addition to the system of anti-M protein monoclonal antibody significantly restored the transcription. Control experiments with the same transcription assaying system using rabies virus nucleoprotein expressed as a fusion protein with MBP and cleaved with FXa did not result in an inhibition of the transcription. These results suggest that the M protein of rabies virus has the property to down-regulate virion-associated transcription.
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PMID:Rabies virus M protein expressed in Escherichia coli and its regulatory role in virion-associated transcriptase activity. 864 3

Human parainfluenza virus type 3 (HPIV3) genome RNA is transcribed and replicated by the virus-encoded RNA-dependent RNA polymerase, and specific cellular proteins play a regulatory role in these processes. To search for cellular proteins potentially interacting with HPIV3 cis-acting regulatory RNAs, a gel mobility shift assay was used. Two cellular proteins specifically interacted with the viral cis-acting RNAs containing the genomic 3'-noncoding region and the plus-sense leader sequence region. Surprisingly, by biochemical and immunological analyses, one of the cellular proteins was identified as the key glycolytic enzyme, glyceraldehyde-3-phosphate dehydrogenase (GAPDH). The other protein was characterized as the autoantigen, LA protein. Both GAPDH and LA protein also interacted with the same cis-acting RNA sequences in vivo and were found to be associated with the HPIV3 ribonucleoprotein complex in the infected cells. By double immunofluorescent labeling, GAPDH was found to be co-localized with viral ribonucleoprotein in the perinuclear region. These observations strongly suggest that cellular GAPDH and LA Protein participate in the regulation of HPIV3 gene expression.
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PMID:Specific interaction in vitro and in vivo of glyceraldehyde-3-phosphate dehydrogenase and LA protein with cis-acting RNAs of human parainfluenza virus type 3. 879 41

20S RNA is a noninfectious viral single-stranded RNA found in most laboratory strains of the yeast Saccharomyces cerevisiae. 20S RNA encodes a protein of 91 kDa (p91) that contains the common motifs found among RNA-dependent RNA polymerases from RNA viruses. p91 and 20S RNA are noncovalently associated in vivo, forming a ribonucleoprotein complex. We detected an RNA polymerase activity in p91/20S RNA complexes isolated by high-speed centrifugation. The activity was not inhibited by actinomycin D nor alpha-amanitin. The majority of the in vitro products was 20S RNA and the rest was the complementary strands of 20S RNA. Because the extracts were prepared from cells accumulating 20S RNA over its complementary strands, these in vitro products reflect the corresponding activities in vivo. When the p91/20S RNA complexes were subjected to sucrose gradient centrifugation, the polymerase activity cosedimented with the complexes. Furthermore, an RNA polymerase activity was detected in the complex by an antibody-linked polymerase assay using anti-p91 antiserum, suggesting that p91 is present in the active RNA polymerase machinery. These results together indicate that p91 is the RNA-dependent RNA polymerase or a subunit thereof responsible for 20S RNA replication.
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PMID:RNA-dependent RNA polymerase activity associated with the yeast viral p91/20S RNA ribonucleoprotein complex. 899 Mar 96

RNA b is the most abundant member of a family of autonomously replicating single- and double-stranded RNA plasmids found in maize mitochondria. The extent to which this molecule is associated with proteins was investigated by rate zonal and CsCl equilibrium density gradient centrifugation of clarified lysates of S cytoplasm maize mitochondria. A soluble complex of RNA b, responsible for synthesis of the more abundant (+) RNA b strand in mitochondrial lysates, was identified. The complex had a buoyant density of 1.49 g/cm3, indicating a substantial non-nucleic acids content. The sedimentation coefficient of the complex, however, was only slightly larger than that of deproteinized RNA b. Synthesis of RNA b as well as the larger RNA plasmid, RNA a, was resistant to heparin, suggesting that, for both RNAs, preformed complexes between an RNA template and an RNA-dependent RNA polymerase capable of elongating in vivo preinitiated RNA plasmid strands, were present in the lysate. Only a small fraction of RNA b molecules were bound in the complex; the bulk of RNA b sedimented at the same rate as the deproteinized RNA. Thus, after replication, maize mitochondrial plasmids are not associated with nucleoprotein capsids although their synthesis takes place through ribonucleoprotein replication complexes.
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PMID:The maize mitochondrial plasmid RNA b is associated with protein during synthesis but is not encapsidated. 922 50

The M1 protein of influenza virus inhibits the in vitro transcriptase activity of ribonucleoprotein cores from virions. This inhibitory activity is thought to be relevant in vivo because accumulation of M1 at the late stages of viral replication may be the cue to halt viral mRNA production. A model influenza reporter genome was used to explore the effect of M1 on the activity of the influenza virus transcriptase complex within cultured cells. Expression of M1 in cells bearing the model influenza virus reporter genome was accompanied by a reduction of CAT gene expression to 12% of control levels. Quantification of RNA by ribonuclease protection assay revealed that the influenza reporter genome mRNA levels in M1-expressing cells were reduced by approximately 74% compared with those of cells expressing a control protein. These findings are consistent with the proposed model in which M1 is responsible for limiting viral transcription during late stages of infection. By expressing truncated forms of M1, the inhibitory activity was found to reside within the amino-terminal half of the M1 protein. Two independent inhibitory domains were identified in this region: one between amino acid residues 1-90 and the other spanning residues 91-127.
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PMID:The matrix 1 protein of influenza A virus inhibits the transcriptase activity of a model influenza reporter genome in vivo. 974 Jul 76

Telomerase is a ribonucleoprotein complex with reverse-transcriptase activity responsible for telomere reconstitution. High telomerase activity was found in cancer cells, but not in differentiated homologous nonmalignant tissues. We demonstrated previously that the disappearance of telomerase activity is a reliable marker of tumor cell killing in human cancer cell lines. We have investigated the possibility of evaluating chemosensitivity of neoplastic cells of different origin [ovary, lung, breast, gastrointestinal, skin (melanoma)] obtained from cancer patients, by measuring residual telomerase activity after drug treatment in vitro. Using the classical telomeric repeat amplification protocol ("TRAP") assay based on polymerase chain reaction, we examined telomerase activity of untreated or drug-treated tumor cell suspensions, derived from the processing of surgical specimens. Feasibility and reproducibility of the assay were evaluated according to various parameters, including drug concentration, time of in vitro culture, and type of tumor. The results indicated that the assay is highly sensitive and reproducible, and can be performed using surgical specimens in a reasonable percentage of cases, ranging from 40% (breast cancer) to 100% (ovarian cancer). Moreover, the assay provides comparable results using a wide range of tumor cells, and the presence of normal cells does not interfere with the results. Prolonged tumor cell culture is not required because the assay can be completed within 24 to 72 hours after sample collection. In conclusion, the present investigation provides the technical bases for future studies to evaluate whether this assay would be able to predict patient's response to antitumor agents.
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PMID:Suppression of telomerase activity as an indicator of drug-induced cytotoxicity against cancer cells: in vitro studies with fresh human tumor samples. 1046 37

Telomerase is a ribonucleoprotein which has a RNA template to bind and extend telomere ends, so prolonging the life of tumour cells. The aim of this study was to determine whether transcriptase function of telomerase could be inhibited by the reverse transcriptase inhibitors (RTI); azydothymidine (AZT), dideoxyinosine (ddI) and AZT-5' triphosphate (AZT-TP). We examined their effects on the proliferation of cancer cells and the antitumour effects of cisplatin in vitro. The three agents did not cause major changes in telomerase activity or telomere length in MCAS cells. However, in HEC-1 cells changes in telomerase activity and telomere length were observed that were dependent on the RTI concentration and duration of exposure. ddI and AZT-TP reduced telomerase activity and shortened the length of the telomere. In the presence of RTI, the antitumour effects of cisplatin were enhanced. This was particularly evident in HEC-1 cells where there was a marked reduction in cell proliferation, appearance of morphological changes and senescent-like cells in the presence of ddI or AZT-TP. In MCAS cells, TP53 expression was increased by ddI and AZT-TP, while p21 expression was unchanged. In HEC-1 cells the expression of both TP53 and P21 was increased by ddI. Continuous administration of RTI enhanced the cell growth inhibition of cisplatin. RTI also inhibited the proliferation of some cells.
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PMID:Inhibition of telomerase activity and cell proliferation by a reverse transcriptase inhibitor in gynaecological cancer cell lines. 1053 89

Rapid immune plaque assays have been developed to quantify biohazard level 4 agents Hendra and Nipah viruses and detect neutralising antibodies to both viruses. The methods rely on the fact that both viruses rapidly generate large syncytia in monolayers of Vero cells within 24 h and that monospecific antiserum to the Hendra virus phosphoprotein (P) detects that protein in both Hendra and Nipah virus-induced syncytia after methanol fixation of virus-infected cells. The P protein is a constituent of the ribonucleoprotein core of the viruses and a component of the viral RNA-dependent RNA polymerase and is made in significant amounts in infected cells. In the immune plaque assay, anti-P antibody is localised by an alkaline phosphatase-linked second antibody and the Western blot substrates 5-bromo-4-chloro-3-indolyl phosphate and p-nitro blue tetrazolium. A modification of the rapid immune plaque assay was also used to detect antibodies to Nipah virus in a panel of porcine field sera from Malaysia and the results showed good agreement between the immune plaque assay and a traditional serum neutralisation test. After methanol fixation, plates can be stored for up to 7 months and may be used in the immune plaque assay to complement the enzyme-linked immunosorbent assay screening of sera for antibodies to Nipah virus. At present, all enzyme-linked immunosorbent assay positive sera are subject to confirmatory serum neutralisation tests. Use of the immune plaque assay may reduce the number of sera requiring confirmatory neutralisation testing for Nipah virus antibodies under biohazard level 4 conditions by identifying those that generate false positive in the enzyme-linked immunosorbent assay.
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PMID:A rapid immune plaque assay for the detection of Hendra and Nipah viruses and anti-virus antibodies. 1168 2

The ends of the chromosomes are capped by specialized structures, the telomeres. These are comprised of tracts of hexanucleotid sequences and, in combination with specific proteins, protect the chromosome against degradation, fusion events and as being recognized as 'damaged' DNA; thus, they guarantee chromosomal integrity. Due to deficiencies during DNA replication, the telomeres continuously loose part of their sequences and it has been proposed that this loss is the liming factor for the replicative capacity of a cell, i.e. telomeric loss is the counting mechanism - the internal clock of ageing. In order to proliferate indefinitely, the cells must prevent telomere erosion and this is mostly achieved by upregulation or de novo expression of the ribonucleoprotein complex telomerase. This enzyme, which has a reverse-transcriptase activity, is able to add telomeric sequences to the outer most ends off the telomeres and thereby stabilize or even elongate the telomeres. As telomerase is expressed in about 90% of all tumours while expression is absent in many somatic tissues, it is not surprising that the causal role of telomere erosion is presently the most favoured hypothesis of cellular ageing.
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PMID:Ageing mechanisms: the role of telomere loss. 1169 58

The influenza A virus RNA-dependent RNA polymerase catalyzes several reactions in transcription and replication of the genome RNA. The first step in viral mRNA synthesis is the endonucleolytic cleavage of host cell mRNAs containing a cap structure to generate capped primers that are 10-14 nucleotides long which are then used to prime transcription of virus-specific mRNAs. To analyze the properties of the capped RNA-specific endonuclease associated with the influenza virus polymerase and the roles of each of the three subunits in transcription initiation, we established an in vitro assay to investigate this endonucleolytic cleavage reaction. This assay consists of an artificial RNA substrate containing a cap-0 structure at its 5' end and a partial alfalfa mosaic virus RNA 4 (AIMV RNA 4) sequence which had been shown to be cleaved by the influenza polymerase. Results showed that purified virion ribonucleoprotein complexes cleaved the RNA substrate specifically to generate a capped 14-nt RNA fragment for use as primer to initiate viral mRNA synthesis. Purified polyclonal anti-PB2 IgG inhibited the endonuclease activity, but anti-PB1 and anti-PA antibodies did not inhibit the cleavage. Partially purified trimeric polymerase expressed by recombinant baculovirus in insect cells cleaved the artificial substrate, but if one or two subunits were removed from the polymerase complex, the cleavage activity was totally lost. Our results suggest that viral PB2 protein is the endonuclease that cleaves host cell mRNA to produce the primer used to initiate transcription; however, association with the other two enzyme subunits seems to be required for this PB2 function.
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PMID:Influenza A virus RNA polymerase subunit PB2 is the endonuclease which cleaves host cell mRNA and functions only as the trimeric enzyme. 1183 24


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