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: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatitis delta virus (HDV) encodes one protein, hepatitis delta antigen (deltaAg), a 195-amino-acid RNA binding protein essential for the accumulation of HDV RNA-directed RNA transcripts. It has been accepted that deltaAg localizes predominantly to the nucleolus in the absence of HDV genome replication while in the presence of replication, deltaAg facilitates HDV RNA transport to the nucleoplasm and helps redirect host RNA polymerase II (Pol II) to achieve transcription and accumulation of processed HDV RNA species. This study used immunostaining and confocal microscopy to evaluate factors controlling the localization of deltaAg in the presence and absence of replicating and nonreplicating HDV RNAs. When deltaAg was expressed in the absence of full-length HDV RNAs, it colocalized with nucleolin, a predominant nucleolar protein. With time, or more quickly after induced cell stress, there was a redistribution of both deltaAg and nucleolin to the nucleoplasm. Following expression of nonreplicating HDV RNAs, deltaAg moved to the nucleoplasm, but nucleolin was unchanged. When deltaAg was expressed along with replicating HDV RNA, it was found predominantly in the nucleoplasm along with Pol II. This localization was insensitive to inhibitors of HDV replication, suggesting that the majority of deltaAg in the nucleoplasm reflects ribonucleoprotein accumulation rather than ongoing transcription. An additional approach was to reevaluate several forms of deltaAg altered at specific locations considered to be essential for protein function. These studies provide evidence that deltaAg does not interact directly with either Pol II or nucleolin and that forms of deltaAg which support replication are also capable of prior nucleolar transit.
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PMID:Intracellular localization of hepatitis delta virus proteins in the presence and absence of viral RNA accumulation. 1936 24

We investigated whether a continuous transcript is necessary for co-transcriptional pre-mRNA processing. Cutting an intron with the fast-cleaving hepatitis delta ribozyme, but not the slower hammerhead, inhibited splicing. Therefore, exon tethering to RNA polymerase II (Pol II) cannot rescue splicing of a transcript severed by a ribozyme that cleaves rapidly relative to the rate of splicing. Ribozyme cutting also released cap-binding complex (CBC) from the gene, suggesting that exon 1 is not tethered. Unexpectedly, cutting within exons inhibited splicing of distal introns, where exon definition is not affected, probably owing to disruption of the interactions with the CBC and the Pol II C-terminal domain that facilitate splicing. Ribozyme cutting within the mRNA also inhibited 3' processing and transcription termination. We propose that damaging the nascent transcript aborts pre-mRNA processing and that this mechanism may help to prevent association of processing factors with Pol II that is not productively engaged in transcription.
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PMID:Fast ribozyme cleavage releases transcripts from RNA polymerase II and aborts co-transcriptional pre-mRNA processing. 1973 89

Human hepatitis delta virus (HDV) is the only animal virus known to replicate its RNA genome using a host polymerase because its only virally encoded proteins, the small and large hepatitis delta antigens (HDAg-S and HDAg-L), lack polymerase activity. Although this makes HDV an ideal model system to study RNA-directed transcription in mammalian cells, little is known about the host factors involved in its replication. To comprehensively identify such host factors, we created a stable cell line carrying a functional FLAG-HDAg-S. Anti-Flag immunopurification and mass spectrometry identified >100 proteins associated with FLAG-HDAg-S, many of which had predicted roles in RNA metabolism. The biological relevance of this screen was strongly supported by the identification of nine out of the 12 subunits of the RNA polymerase II complex thought to mediate HDV replication. To further investigate the significance of these factors for HDV replication, we selected 65 proteins to look for factors that would also affect the accumulation of HDV RNA following siRNA knockdown. Fifteen and three factors were found to regulate HDV RNA accumulation negatively and positively, respectively, upon RNAi knockdown. Our results provide a valuable resource for future research to advance our mechanistic understanding of HDV replication and RNA-directed transcription in mammalian cells.
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PMID:Combined proteomic-RNAi screen for host factors involved in human hepatitis delta virus replication. 1977 58

Recent studies revealed that posttranslational modifications (e.g., phosphorylation and methylation) of the small hepatitis delta antigen (SHDAg) are required for hepatitis delta virus (HDV) replication from antigenomic to genomic RNA. The phosphorylation of SHDAg at serine 177 (Ser(177)) is involved in this step, and this residue is crucial for interaction with RNA polymerase II (RNAP II), the enzyme assumed to be responsible for antigenomic RNA replication. This study demonstrated that SHDAg dephosphorylated at Ser(177) interacted preferentially with hypophosphorylated RNAP II (RNAP IIA), which generally binds at the transcription initiation sites. In contrast, the Ser(177)-phosphorylated counterpart (pSer(177)-SHDAg) exhibited preferential binding to hyperphosphorylated RNAP II (RNAP IIO). In addition, RNAP IIO associated with pSer(177)-SHDAg was hyperphosphorylated at both the Ser(2) and Ser(5) residues of its carboxyl-terminal domain (CTD), which is a hallmark of the transcription elongation isoform. Moreover, the RNAP II CTD kinase inhibitor 5,6-dichloro-1-beta-D-ribofuranosyl-benzimidazole (DRB) not only blocked the interaction between pSer(177)-SHDAg and RNAP IIO but also inhibited HDV antigenomic RNA replication. Our results suggest that the phosphorylation of SHDAg at Ser177 shifted its affinitytoward the RNAP IIO isoform [corrected] and thus is a switch for HDV antigenomic RNA replication from the initiation to the elongation stage.
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PMID:Phosphorylation of serine 177 of the small hepatitis delta antigen regulates viral antigenomic RNA replication by interacting with the processive RNA polymerase II. 1992 76

The CTN rabies virus was isolated from a human in China in 1953 and subsequently attenuated by multiple passaging to a vaccine strain now approved by the WHO. In this study, we describe the development of a reverse genetics system for the CTN rabies virus strain. The recombinant full-length genomic cDNA was flanked by a hammerhead ribozyme (HamRz) and the hepatitis delta virus ribozyme (HdvRz) while the non-coding G-L region was replaced with a green fluorescent protein (GFP) gene. A set of helper plasmids encoding nucleoprotein (N), phosphoprotein (P), and large protein (L) were constructed and co-transfected with recombinant full-length genome plasmid into BHK-21 cells. Recombinant virus was successfully recovered from cloned cDNA under control of the CMV promoter driven by RNA polymerase II. The recombinant virus, CTN-GFP, stably expressed GFP as detected by fluorescence microscopy. A group of 1-day-old suckling mice was challenged with the CTN-GFP strain by intracerebral inoculation, resulting in 100% morbidity and GFP expression was detected in brain tissues. The recombinant virus CTN-GFP strain recovered from cloned cDNA will be useful as a viral vector to express other foreign genes.
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PMID:Development of a reverse genetics system for a human rabies virus vaccine strain employed in China. 2008 Jan 36

Reverse genetics system is a powerful tool to study the function of a particular gene. The currently available reverse genetics system for Novirhabdovirus is based on vaccinia-driven T7 RNA polymerase expression. An improved system for the recovery of infectious hematopoietic necrosis virus (IHNV) was developed which utilizes cellular RNA polymerase II machinery for transcription. A full-length cDNA clone of IHNV, flanked by hammerhead ribozyme and hepatitis delta ribozyme sequences, was assembled in an expression plasmid under the control of a cytomegalovirus promoter. Transfection of this full-length plasmid along with the supporting plasmids (N, P, NV and L) into epithelioma papulosum cyprini cells resulted in the recovery of a viable recombinant IHNV (rIHNV). The authenticity of rIHNV was confirmed by the presence of restriction sites introduced artificially in the genome. A recombinant IHNV expressing a foreign gene - enhanced green fluorescent protein - was also recovered. The recovered IHNVs showed similar growth characteristics as the parental IHNV in cell cultures. Challenge of susceptible rainbow trout with wild-type IHNV and rIHNV induced clinical disease signs indistinguishable from the parental strain and produced mortality. Thus, a vaccinia-virus-free reverse genetics system described for IHNV is applicable for the recovery of any Novirhabdovirus, which will facilitate studies on viral pathogenesis and the design of new generation of viral vectored vaccines.
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PMID:A vaccinia-virus-free reverse genetics system for infectious hematopoietic necrosis virus. 2036 10

Survivin (BIRC5) relationship with tumor is presented in several papers. However, how the molecular network and interpretation concerning BIRC5 cell cycle between no-tumor hepatitis/cirrhosis and hepatocellular carcinoma (HCC) remains to be elucidated. Here, we constructed and analyzed significant higher expression gene BIRC5 activated and inhibited cell cycle network from HCC versus no-tumor hepatitis/cirrhosis patients (viral infection HCV or HBV) in GEO Dataset by combination of gene regulatory network inference method based on linear programming and decomposition procedure with the CapitalBio MAS 3.0 software based on the integration of public databases including Gene Ontology, KEGG, BioCarta, GenMapp, Intact, UniGene, OMIM, etc. Compared the same and different activated and inhibited BIRC5 network with GO analysis between no-tumor hepatitis/cirrhosis and HCC, our result showed BIRC5 cell cycle network weaker transcription factor activity in both no-tumor hepatitis/cirrhosis and HCC (1); stronger nucleus protein binding but weaker cytoplasm protein binding in no-tumor hepatitis/cirrhosis (2); stronger cytoplasm protein phosphatase binding but weaker ubiquitin-protein ligase activity in HCC (3). Therefore, we inferred BIRC5 cell cycle module less transcription from RNA polymerase II promoter in both no-tumor hepatitis/cirrhosis and HCC (4). We deduced BIRC5 cell cycle module different from more mitosis but less complex-dependent proteasomal ubiquitin-dependent protein catabolism as a result increasing cell division and cell numbers in no-tumor hepatitis/cirrhosis to more protein amino acid autophosphorylation but less negative regulation of ubiquitin ligase activity during mitotic cell cycle as a result increasing growth and cell volume in HCC (5).
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PMID:Survivin (BIRC5) cell cycle computational network in human no-tumor hepatitis/cirrhosis and hepatocellular carcinoma transformation. 2131 34

A new system was developed to improve the efficiency and simplify the procedure of recovery of Newcastle disease virus (NDV) from cloned cDNA. A full-length cDNA clone of mesogenic NDV vaccine strain Mukteswar was assembled from five subgenomic cDNA fragments and cloned into a plasmid allowing transcription driven by cellular RNA polymerase II. The full-length viral cDNA was flanked by hammerhead ribozyme (HamRz) and hepatitis delta virus ribozyme (HdvRz) sequences, resulted in the synthesis of antigenomic RNA with exact termini. Without supplying T7 RNA polymerase, infectious NDV could be generated efficiently in some eukaryotic cell lines by simultaneous transcription of antigenomic RNA from the full-length plasmid and expression of NP, P and L proteins from helper plasmids introduced by cotransfection. The efficiency of recovery with the conventional T7 promoter system based on BRS-T7 cells and the cytomegalovirus (CMV) promoter system was compared, and the results demonstrate that the new system facilitates the generation of recombinant NDV and more efficient than the T7 rescue system using BRS-T7.
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PMID:Rescue of Newcastle disease virus from cloned cDNA using an RNA polymerase II promoter. 2132 86

Conventional reverse genetics for classical swine fever virus (CSFV) is based on the transfection of permissive cells with either in vitro or intracellularly synthesized RNA transcripts from a viral genomic cDNA clone. These strategies are complicated, inefficient and time-consuming. This study is aimed to develop an improved reverse genetics method for the direct, rapid and efficient recovery of CSFV from cloned cDNA. The cDNA clone pBRCISM was constructed, which harbors the full-length genomic sequence from the CSFV Shimen strain flanked by the cytomegalovirus promoter (an RNA polymerase II promoter), a chimeric intron, and hammerhead ribozyme sequences at the 5'-end and the hepatitis delta virus ribozyme and SV40 polyadenylation signal sequences at the 3'-end. Infectious progeny virus was rescued from PK-15 cells directly transfected with pBRCISM, and its morphology, one-step growth characteristics and pathogenicity were indistinguishable from the parent virus and virus rescued from classical reverse genetics. The reverse genetics based on RNA polymerase II yielded a 120-fold increase in the titer of nascent virus in 12-h less time than a reverse genetics method based on in vitro transcription. The full-length cDNA clone remained stable and infectious after 20 passages in bacterial cells, in contrast to the instability of the full-length clone without the intron after 9 passages. The improved reverse genetics method developed in the present study is efficient, stable, convenient and cost-effective and will be valuable for the rapid recovery of CSFV mutants.
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PMID:Efficient and stable rescue of classical swine fever virus from cloned cDNA using an RNA polymerase II system. 2319 73

The hepatitis delta virus (HDV) is a small (~1700 nucleotides) RNA pathogen which encodes only one open reading frame. Consequently, HDV is dependent on host proteins to replicate its RNA genome. Recently, we reported that ASF/SF2 binds directly and specifically to an HDV-derived RNA fragment which has RNA polymerase II promoter activity. Here, we localized the binding site of ASF/SF2 on the HDV RNA fragment by performing binding experiments using purified recombinant ASF/SF2 combined with deletion analysis and site-directed mutagenesis. In addition, we investigated the requirement of ASF/SF2 for HDV RNA replication using RNAi-mediated knock-down of ASF/SF2 in 293 cells replicating HDV RNA. Overall, our results indicate that ASF/SF2 binds to a purine-rich region distant from both the previously published initiation site of HDV mRNA transcription and binding site of RNAP II, and suggest that this protein is not involved in HDV replication in the cellular system used.
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PMID:Identification of a binding site for ASF/SF2 on an RNA fragment derived from the hepatitis delta virus genome. 2334 75


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