Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019163 (hepatitis B)
 38,309 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dermatomyositis is a rare systemic autoimmune disease that principally involves the skeletal muscles. Currently, the etiopathology is suspected to involve a viral infection with underlying genetic susceptibility, resulting in an abnormal immune reaction. Autoantibodies, in particular against enzymes involved in protein synthesis--especially aminoacyl-tRNA synthetases--appear to be found for the most part when the lungs are involved. Differential diagnosis is facilitated by the detection of various auto-antibodies. Treatment is unsatisfactory, and controlled studies, in particular when resistance to prednisone presents, are lacking. The prognosis depends, among other things, on the internal organs involved (heart, lungs, gastrointestinal tract, endocrine system). The search for viruses (e.g. hepatitis B) should be intensified using the latest, more sensitive, methods.
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PMID:[Dermatomyositis--pathogenesis, diagnosis, therapy]. 185 61

The nucleotide sequence of the human spumaretrovirus (HSRV) genome was determined. The 5' long terminal repeat region was analyzed by strong stop cDNA synthesis and S1 nuclease mapping. The length of the RU5 region was determined and found to be 346 nucleotides long. The 5' long terminal repeat is 1,123 base pairs long and is bound by an 18-base-pair primer-binding site complementary to the 3' end of mammalian lysine-1,2-specific tRNA. Open reading frames for gag and pol genes were identified. Surprisingly, the HSRV gag protein does not contain the cysteine motif of the nucleic acid-binding proteins found in and typical of all other retroviral gag proteins; instead the HSRV gag gene encodes a strongly basic protein reminiscent of those of hepatitis B virus and retrotransposons. The carboxy-terminal part of the HSRV gag gene products encodes a protease domain. The pol gene overlaps the gag gene and is postulated to be synthesized as a gag/pol precursor via translational frameshifting analogous to that of Rous sarcoma virus, with 7 nucleotides immediately upstream of the termination codons of gag conserved between the two viral genomes. The HSRV pol gene is 2,730 nucleotides long, and its deduced protein sequence is readily subdivided into three well-conserved domains, the reverse transcriptase, the RNase H, and the integrase. Although the degree of homology of the HSRV reverse transcriptase domain is highest to that of murine leukemia virus, the HSRV genomic organization is more similar to that of human and simian immunodeficiency viruses. The data justify classifying the spumaretroviruses as a third subfamily of Retroviridae.
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PMID:Analysis of the primary structure of the long terminal repeat and the gag and pol genes of the human spumaretrovirus. 245 55

All known DNA polymerases require primers for the initiation of DNA synthesis. While cellular polymerases and reverse transcriptases use free hydroxyl groups of RNA or DNA, the DNA polymerases of certain animal viruses and bacteriophages depend upon hydroxyl groups of amino acid residues within proteins as primers for DNA synthesis. Recently, the reverse transcriptase of a hepadnavirus has been shown to prime RNA-directed DNA synthesis from an internal site of the polypeptide (G.H. Wang and C. Seeger, Cell 71:663-670, 1992). In this report we demonstrate that a tyrosine residue of the polymerase polypeptide is the site of a phosphodiester linkage with the first nucleotide of minus-strand DNA. This tyrosine residue is located within an amino-terminal domain of the polymerase polypeptide and is indispensable for the priming of reverse transcription. Our results demonstrate that the hepatitis B virus reverse transcriptase can initiate DNA synthesis without the requirement for tRNA as a primer.
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PMID:Reverse transcription in hepatitis B viruses is primed by a tyrosine residue of the polymerase. 750 42

Reverse transcription of all retroviruses and most retroid elements requires tRNA as a primer for DNA synthesis. However, in hepatitis B viruses the viral polymerase itself acts as a primer for reverse transcription (G.-H. Wang and C. Seeger, Cell 71:663-670, 1992). We have now demonstrated that in order to prime DNA synthesis, the polymerase binds to an RNA hairpin, which then serves as a template for the formation of a short DNA primer that is covalently linked to protein. Following its synthesis, the nascent DNA strand apparently dissociates from its template and reanneals with complementary sequences at the 3' end of the RNA genome, where DNA synthesis continues. Since this RNA hairpin also functions as a packaging signal for viral RNA, hepadnaviruses have adopted a replication strategy that relies on the same signal for two biochemically distinct events, RNA packaging and reverse transcription. This mechanism is without precedent among all known retroid elements and among other viruses and bacteriophages that use protein as a primer for RNA or DNA synthesis. It could provide an effective target for antiviral therapy, which is required for the treatment of more than 300 million carriers of hepatitis B virus.
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PMID:Novel mechanism for reverse transcription in hepatitis B viruses. 769 81

The hepatitis B virus X gene product transactivates a variety of cellular and viral genes. The mechanism for X induction of RNA polymerase (pol) III genes was investigated. By using Drosophila S-2 cells stably transformed with the X gene, the transient expression of a tRNA gene is enhanced. Comparing the transcriptional activities of extracts derived from these cells, all three types of RNA pol III promoters are stimulated by X. Interestingly, both S-2 and rat 1A cells stably transformed with the X gene produce increased cellular levels of the TATA-binding protein (TBP). By using various kinase inhibitors, it was found that the X-mediated increases in both transcription and TBP are dependent upon protein kinase C activation. Since TBP is a subunit of TFIIIB, the activity of this component fractionated from extracts derived from control and X-transformed cells was analyzed. These studies reveal that TFIIIB activity is substantially more limiting in control cells and that TFIIIB isolated from X-transformed cells has increased activity in reconstitution assays compared with TFIIIB isolated from control cells. Conversely, comparison of TFIIIC from control and X-transformed cell extracts revealed that there is relatively little change in its ability either to reconstitute transcription or to bind to DNA and that there is no change in the catalytic activity of RNA pol III. Studies were performed to determine whether directly increasing cellular TBP alone could enhance RNA pol III gene transcription. Transient expression of a TBP cDNA in rat 1A cells was capable of stimulating transcription activity from the resultant extracts in vitro. Together, these results demonstrate that one mechanism by which X mediates transactivation of RNA poll III genes is by increasing limiting TBP via the activation of cellular signaling pathways. The discovery that X increases cellular TBP, the universal transcription factor, provides a novel mechanism for the function of a viral transactivator protein and may explain the ability of X to produce such large and diverse effects on cellular gene expression.
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PMID:The hepatitis B virus X protein increases the cellular level of TATA-binding protein, which mediates transactivation of RNA polymerase III genes. 852 37

Our previous studies have shown that the hepatitis B virus protein, X, activates all three classes of RNA polymerase III (pol III)-dependent promoters by increasing the cellular level of TATA-binding protein (TBP) (H.-D. Wang et al., Mol. Cell. Biol. 15:6720-6728, 1995), a limiting transcription component (A. Trivedi et al., Mol. Cell. Biol. 16:6909-6916, 1996). We have investigated whether these X-mediated events are dependent on the activation of the Ras/Raf-1 signaling pathway. Transient expression of a dominant-negative mutant Ras gene (Ras-ala15) in a Drosophila S-2 stable cell line expressing X (X-S2), or incubation of the cells with a Ras farnesylation inhibitor, specifically blocked both the X-dependent activation of a cotransfected tRNA gene and the increase in cellular TBP levels. Transient expression of a constitutively activated form of Ras (Ras-val12) in control S2 cells produced both an increase in tRNA gene transcription and an increase in cellular TBP levels. These events are not cell type specific since X-mediated gene induction was also shown to be dependent on Ras activation in a stable rat 1A cell line expressing X. Furthermore, increases in RNA pol III-dependent gene activity and TBP levels could be restored in X-S2 cells expressing Ras-ala15 by coexpressing a constitutively activated form of Raf-1. These events are serum dependent, and when the cells are serum deprived, the X-mediated effects are augmented. Together, these results demonstrate that the X-mediated induction of RNA pol III-dependent genes and increase in TBP are both dependent on the activation of the Ras/Raf-1 signaling cascade. In addition, these studies define two new and important consequences mediated by the activation of the Ras signal transduction pathway: an increase in the central transcription factor, TBP, and the induction of RNA pol III-dependent gene activity.
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PMID:Hepatitis B virus X protein induces RNA polymerase III-dependent gene transcription and increases cellular TATA-binding protein by activating the Ras signaling pathway. 937 15

The minimal substrate for human RNase P consists of the 5' leader sequence, aminoacyl acceptor stem, T-stem and T-loop of tRNA. The sequences corresponding to the D-stem, anticodon stem and loop and variable loop are replaced by a bulge which can be as small as 1 nt, but requires > 4 nt for optimal cleavage by RNase P. We found that a trans construct in which the T loop is opened between G57 and A58 (tRNA numbering system) is still processed by RNase P. The strand that is cleaved can be considered the target RNA while the other strand serves as an External Guide Sequence (EGS). We were also able to delete the nucleotides corresponding to nt 58 to 60 in the T-loop without affecting cleavage of the substrate. We propose that the sequence UUCG or UUCA (nucleotide 55 to 57 in the T-loop) positioned 3' to a double helical region of 12 to 13 basepairs containing a bulge of > 4 nt can form a structure that is recognized by human RNase P. The four nucleotides UUCR probably form a structure that resembles the uridine turn in the Tloop of tRNA. Since recognition by RNase P seems to be independent of the helical sequence, we suggest that this motif can be used for targeting RNA molecules for EGS-directed cleavage by RNase P. Based on these results, several 13-mer EGSs targeted to the 2.1 Kb surface antigen mRNA of hepatitis B virus (HBV) were designed and tested using a co-transcriptional cleavage assay with a 2.1 Kb HBV transcript. Some of these were capable of inducing cleavage of the HBV RNA by RNase P. The use of such small EGSs for the inactivation of various genes will be discussed.
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PMID:Design of short external guide sequences (EGSs) for cleavage of target molecules with RNase P. 947 94

Hepadnaviruses have a complex replication cycle which includes reverse transcription of the pregenomic RNA. The initial step in this process in hepatitis B virus (HBV) requires the viral polymerase to engage a highly stable region of secondary structure within the pregenomic RNA termed the epsilon stem-loop. While reverse transcriptases belonging to the retrovirus family use a specific cellular tRNA as primer, HBV polymerase utilizes a tyrosine residue located within its own N terminus. Therefore, the first deoxyribonucleotide is covalently coupled to HBV polymerase prior to extension of the DNA strand by conventional reverse transcription. We have expressed HBV polymerase in a baculovirus and following purification have found it to be active with respect to protein-priming and reverse transcription of copurified RNA. Importantly, we found both of these processes to be critically dependent on the presence of the epsilon stem-loop. The metal ion preferences of HBV polymerase were also investigated for both the protein-priming and reverse transcription activities of this enzyme. Reverse transcription was dependent on magnesium, with an optimal concentration of 5 mM. However, protein-priming was strongly favoured by manganese ions and was optimal at a concentration of 1 mM. Thus, using manganese as sole source of metal ions our activity assay is restricted to the protein-priming event and will allow the search for novel antivirals specifically blocking this unique mechanism.
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PMID:In vitro activity of hepatitis B virus polymerase: requirement for distinct metal ions and the viral epsilon stem-loop. 960 27

Human RNase P recognizes a small model substrate consisting of only the 5' leader sequence, aminoacyl acceptor stem, and T stem and loop of a tRNA precursor. It was demonstrated here that a bimolecular construct in which the T loop is opened between G57 and A58 (tRNA numbering system) is still processed by RNase P. The strand that is cleaved can be considered the target RNA, whereas the other strand serves as an external guide sequence (EGS). The nucleotides corresponding to nt 58-60 in the T loop could be deleted without affecting cleavage of the substrate. Thus, the complete T loop can be replaced by the single-stranded sequence UUCG or UUCA (nt 55-57 in the T loop). The four nucleotides UUCR possibly form a structure that resembles the uridine turn in the T loop of tRNA. Because recognition by RNase P is independent of the helical sequence, this motif can be used for targeting RNA molecules for EGS-directed cleavage by human RNase P. Chemically modified EGSs with 2'-O-methyl groups also showed activity in inducing RNase P cleavage. Several 13-mer EGSs targeted to the 2.1-kb surface antigen mRNA of hepatitis B virus (HBV) were designed and tested using a co-transcriptional cleavage assay with a 2.1-kb HBV transcript. Some of the new EGSs were capable of inducing cleavage of the HBV RNA by RNase P.
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PMID:Short oligonucleotides as external guide sequences for site-specific cleavage of RNA molecules with human RNase P. 967 Oct 57

The hepatitis B virus posttranscriptional regulatory element (PRE) is an RNA cis-element that is required for high-level expression of viral surface gene transcripts and appears to function by activating mRNA export to the cytoplasm. We have previously shown that multiple fragments of the PRE bind to two cellular proteins of approximately 35 and 55 kDa in molecular mass and that this binding correlates with function. By a combination of column chromatographic techniques and SDS-polyacrylamide gel electrophoresis, we have been able to purify the smaller protein. Amino-terminal sequencing of the purified protein shows identity to glyceraldehyde-3-phosphate dehydrogenase (GAPDH), an RNA-binding glycolytic enzyme that has been implicated in the export of tRNA. Immunoprecipitation analysis reveals that GAPDH is indeed present in the protein-RNA complex resulting from incubation of crude nuclear extracts with a functional region of the PRE. Furthermore, binding of the cellular 35 kDa protein to the PRE fragment is blocked by NAPDH, as would be expected for RNA binding by GAPDH. Finally, purified commercial GAPDH also binds specifically to this RNA fragment. Therefore, GAPDH is one of the cellular proteins that binds to the PRE, and may be involved in the posttranscriptional regulation of hepatitis B virus gene expression.
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PMID:Identification of glyceraldehyde-3-phosphate dehydrogenase as a cellular protein that binds to the hepatitis B virus posttranscriptional regulatory element. 970 54


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