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)

We here report a highly efficient reverse genetics system for measles virus (MeV), using Chinese hamster ovary cells constitutively expressing a MeV receptor human signaling lymphocyte activation molecule (CHO/hSLAM cells). The recombinant vaccinia virus vTF7-3 that encodes the T7 RNA polymerase under the control of the early/late promoter was used in the system. Replication of vTF7-3 was highly restricted in CHO/hSLAM cells, but the virus could still drive the T7 promoter, allowing us to recover MeV from the transfected cDNA efficiently. With this system the number of infectious centers, in which MeV replication cycles are initiated from transfected cDNAs, was approximately 100 times higher than that with the previous system (. J. Virol. 74, 6643-6647), and the recovery rate was 100%. The wild-type MeV that encodes the lac-Z gene of approximately 3.2kb in length, was easily generated with this CHO/hSLAM system, while such virus could not be recovered with the previous system. Since SLAM acts as a cellular receptor for both MeV vaccine and wild-type strains, the Edmonston vaccine strain was also recovered with this system more efficiently than with any other systems reported previously. Thus, the CHO/hSLAM-based system would expand applications of the MeV reverse genetics by allowing productions of mutant MeVs that have been difficult to generate with less efficient systems.
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PMID:Efficient rescue of measles virus from cloned cDNA using SLAM-expressing Chinese hamster ovary cells. 1568 Oct 66

We performed a large-scale random screening of an in-house chemical library based on the inhibition of respiratory syncytial virus (RSV)-induced cytopathic effect on HeLa (human cervical carcinoma) cells, and found a novel and specific anti-RSV agent, 6-{4-[(biphenyl-2-ylcarbonyl) amino]benzoyl}-N-cyclopropyl-5,6-dihydro-4H-thieno[3,2-d][1]benzazepine-2-carboxamide (YM-53403). YM-53403 potently inhibited the replication of RSV strains belonging to both A and B subgroups, but not influenza A virus, measles virus, or herpes simplex virus type 1. A plaque reduction assay was used to determine the 50% effective concentration (EC(50)) value for YM-53403. The value, 0.20 microM, was about 100-fold more potent than ribavirin. The result of a time-dependent drug addition test showed that YM-53403 inhibited the life cycle of RSV at around 8h post-infection, suggesting an inhibitory effect on early transcription and/or replication of the RSV genome. Consistent with this result, two YM-53403-resistant viruses have a single point mutation (Y1631H) in the L protein which is a RNA polymerase for both the transcription and replication of the RSV genome. YM-53403 is an attractive compound for the treatment of RSV infection because of its highly potent anti-RSV activity and the new mode of action, which differs from that of currently reported antiviral agents.
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PMID:YM-53403, a unique anti-respiratory syncytial virus agent with a novel mechanism of action. 1570 39

Regulation, recognition and cell signaling involve the coordinated actions of many players. To achieve this coordination, each participant must have a valid identification (ID) that is easily recognized by the others. For proteins, these IDs are often within intrinsically disordered (also ID) regions. The functions of a set of well-characterized ID regions from a diversity of proteins are presented herein to support this view. These examples include both more recently described signaling proteins, such as p53, alpha-synuclein, HMGA, the Rieske protein, estrogen receptor alpha, chaperones, GCN4, Arf, Hdm2, FlgM, measles virus nucleoprotein, RNase E, glycogen synthase kinase 3beta, p21(Waf1/Cip1/Sdi1), caldesmon, calmodulin, BRCA1 and several other intriguing proteins, as well as historical prototypes for signaling, regulation, control and molecular recognition, such as the lac repressor, the voltage gated potassium channel, RNA polymerase and the S15 peptide associating with the RNA polymerase S-protein. The frequent occurrence and the common use of ID regions in important protein functions raise the possibility that the relationship between amino acid sequence, disordered ensemble and function might be the dominant paradigm for the molecular recognition that serves as the basis for signaling and regulation by protein molecules.
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PMID:Showing your ID: intrinsic disorder as an ID for recognition, regulation and cell signaling. 1609 5

De novo generation of negative-strand RNA viruses depends on the efficient expression of antigenomic RNA (cRNA) from cDNA. To improve the rescue system of Borna disease virus (BDV), a member of the Mononegavirales with a nuclear replication phase, we evaluated different RNA polymerase (Pol) promoters for viral cRNA expression. Human and mouse Pol I promoters did not increase the recovery rate of infectious BDV from cDNA compared to the originally employed T7 RNA polymerase system. In contrast, expression of viral cRNA under the control of an RNA Pol II promoter increased the rescue efficacy by nearly 20-fold. Similarly, rescue of measles virus (MV), a member of the Mononegavirales with a cytoplasmic replication phase, was strongly improved by Pol II-controlled expression of viral cRNA. Analysis of transcription levels derived from different promoters suggested that the rescue-enhancing function of the Pol II promoter was due mainly to enhanced cRNA synthesis from the plasmid. Remarkably, correct 5'-terminal processing of Pol II-transcribed cRNA by a hammerhead ribozyme was not necessary for efficient rescue of BDV or MV. The correct 5' termini were reconstituted during replication of the artificially prolonged cRNA, indicating that the BDV and MV replicase complexes are able to recognize internal viral replication signals.
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PMID:RNA polymerase II-controlled expression of antigenomic RNA enhances the rescue efficacies of two different members of the Mononegavirales independently of the site of viral genome replication. 1673 9

A rescue system for measles virus from cloned cDNA was established using CHO/hSLAM cells (Chinese hamster ovary cells expressing a measles virus receptor, signaling lymphocyte activation molecule), LO-T7-1 virus (the Lister vaccine strain of vaccinia virus expressing the T7 RNA polymerase under the control of the early/late p7.5 promoter), and caspase inhibitor. LO-T7-1 drove efficiently the T7 promoter in CHO/hSLAM cells. Rescue efficiency with LO-T7-1 was not as high as that with the vTF7-3 strain based on a neurovirulent vaccinia virus, but was increased by using a caspase inhibitor to block apoptosis of CHO/hSLAM cells induced by LO-T7-1. These modifications resulted in a measles virus rescue efficiency that was even higher than that of previous systems. This safer and more efficient system will facilitate further the genetic manipulation of measles virus in basic research and virus vector development.
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PMID:Rescue system for measles virus from cloned cDNA driven by vaccinia virus Lister vaccine strain. 1685 75

In our previous studies, the recombinant gonadotropin-releasing hormone (GnRH) peptide was constructed into a T7 RNA polymerase-based expression system. The recombinant gene encoding GnRH3-hinge-MVP, which contained three repeated GnRH units, a fragment of hinge region (225-232/225'-232'), and a T cell epitope of measles virus protein, was cloned into Escherichia coli BL21 harboring pED-GnRH3. The high activity of T7 RNA polymerase could make the expression system very powerful for high-level expression of the recombinant protein. However, during the large-scale production of recombinant protein, the productivity of the fermentation process was directly affected by many factors, such as plasmid stability, protein production, and culture conditions. In this study, we studied the effects of various culture conditions on the plasmid stability and the target protein yield including selective pressure, the time of induction by lactose, and the number of successive cultures. The results indicate that the plasmid instability may be caused by a loss of plasmid rather than structural change. However, to go down to future generations, engineered bacteria have the stability of plasmid and protein yield to a large extent. The amount of the fusion protein was also up to 40% of the total cell protein after the 50th generation. These data would be useful for the industrial production of the recombinant GnRH vaccine.
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PMID:Stability of plasmid and expression of a recombinant gonadotropin-releasing hormone (GnRH) vaccine in Escherichia coli. 1689 97

To design an anti-gonadotropin-releasing hormone (GnRH) vaccine capable of eliciting strong immunogenicity, a gene fragment encoding a chimeric peptide was constructed using polymerase chain reaction and ligated into a novel expression vector for recombinant expression in a T7 RNA polymerase-based expression system. The chimeric peptide called GnRH3-hinge-MVP contained three linear repeats of GnRH (GnRH3), a fragment of the human IgG1 hinge region, and a T-cell epitope of measles virus protein (MVP). The expression plasmid contained the GnRH3-hinge-MVP construct ligated to its fusion partner (AnsB-C) via an unique acid labile Asp-Pro linker. The recombinant fusion protein was expressed in an inclusion body in Escherichia coli under IPTG or lactose induction and the target peptide was easily purified using washing of urea and ethanol precipitation. The target chimeric peptide was isolated from the fusion partner following acid hydrolysis and purified using DEAE-Sephacel chromatography. The purified GnRH3-hinge-MVP was determined to be highly homogeneous by IEF analysis and the N-terminal sequencing. Further, immunization of female mice with the recombinant chimeric peptide resulted in generation of high-titer antibodies specific for GnRH. The results showed that GnRH3-hinge-MVP could be considered as a candidate anti-GnRH vaccine.
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PMID:Cloning, expression, and purification of a highly immunogenic recombinant gonadotropin-releasing hormone (GnRH) chimeric peptide. 1706 33

To improve the rescue efficiency of measles virus cDNA clone, the cell line that stably expressed the T7 RNA polymerase was established. Firstly, the T7 RNA polymerase gene was amplified by PCR and then the PCR product was inserted into pcDNA3 to obtain plasmid pcDNA3-T7. Vero cell was transfected with the plasmid and G418 was added to the cell 24h later to kill the cells without the plasmid. Western blotting analysis showed that the Vero/pcDNA3-T7 cell could express T7 RNA polymerase. To analyze the gene function of T7 RNA polymerase, the pT7IP-EGFP plasmid was transfected into the Vero/pcDNA3 T7 cell and EGFP was analized by fluorescence. The result suggested that T7 RNA polymerase expressed in the Vero/pcDNA3-T7 cell could transcribe the gene under control of the T7 promoter. Moreover, the minigenome PminiEGFP inserted reversely with report gene EGFP was established. After trans fection with the plasmid and infection with measles virus, EGFP was expressed, indicating the Vero/pcDNA3-T7 cell could rescue the minigenome.
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PMID:[Rescue of minireplicon by using the cell line stably expressing the T7 RNA polymerase]. 1789 37

Because viruses are obligate parasites, numerous partnerships between measles virus and cellular molecules can be expected. At the entry level, measles virus uses at least two cellular receptors, CD150 and a yet to be identified epithelial receptor to which the virus H protein binds. This dual receptor strategy illuminates the natural infection and inter-human propagation of this lymphotropic virus. The attenuated vaccine strains use CD46 as an additional receptor, which results in a tropism alteration. Surprisingly, the intracellular viral and cellular protein partnership leading to optimal virus life cycle remains mostly a black box, while the interactions between viral proteins that sustain the RNA-dependant RNA polymerase activity (i.e., transcription and replication), the particle assembly and the polarised virus budding are documented. Hsp72 is the only cellular protein that is known to regulate the virus transcription and replication through its interaction with the viral N protein. The viral P protein is phosphorylated by the casein kinase II with undetermined functional consequences. The cellular partnership that controls the intracellular trafficking of viral components, the assembly and/or the budding of measles virus, remains unknown. The virus to cell innate immunity war is better documented. The 5' triphosphate-ended virus leader transcript is recognised by RIG-I, a cellular helicase, and induces the interferon response. Measles virus V protein binds to the MDAS helicase and prevents the MDA5-mediated activation of interferon. By interacting with STAT1 and Jak1, the viral P and V proteins prevent the type I interferon receptor (IFNAR) signalling. The virus N protein interacts with eIF3-p40 to inhibit the translation of cellular mRNA. The H protein binds to TLR2, which then transduces an activation signal and CD150 expression in monocytes. The P protein activates the expression of the ubiquitin modifier A20, thus blocking the TLR4-mediated signalling. Few other partnerships between measles virus components and cellular proteins have been postulated or demonstrated, and they need further investigations to understand their physiopathological outcome.
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PMID:Measles virus interaction with host cells and impact on innate immunity. 1919 66

Subacute sclerosing panencephalitis is an uncommon progressive neurological disorder caused by a persistent defective measles virus, typically affecting children. We describe a case of fulminant subacute sclerosing panencephalitis in a 25-year-old male. Brain tissue biopsy showed histologic evidence of encephalitis with eosinophilic intranuclear inclusion bodies (Cowdry Type A and B), intracytoplasmic inclusion bodies, perivascular lymphoplasmacytic infiltration and gliosis. Immunohistochemical studies were positive using an anti-measles antibody. Reverse transcriptase-PCR detected measles virus RNA and phylogenetic analysis indicated a C2 genotype. The rare adult-onset form is often atypical and difficult to diagnose and should be included in the differential diagnosis of subacute "unexplained" neurological diseases and uncommon infectious disorders.
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PMID:Adult fulminant subacute sclerosing panencephalitis: pathological and molecular studies--a case report. 1953 41

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