UMLS:C0019163 - FACTA Search

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Query: UMLS:C0019163 (hepatitis B)
38,309 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphonoacetate is a highly specific inhibitor of herpes simplex virus-induced DNA polymerase. Sensitivity of herpesvirus type 1 or type 2 induced DNA polymerase to the drug was similar. However, DNA polymerases from other sources such as the host cells (Wi-38), Micrococcus luteus, and hepatitis B virus were highly resistant. In addition, Escherichia coli RNA polymerase and reverse transcriptase of Rous sarcoma virus were also insensitive to the drug. Enzyme kinetic studies showed that inhibition was noncompetitive with respect to deoxyribonucleotide triphosphates. The Ki value was about 0.45 muM. The apparent Km values for dTTP, dATP, dCTP, and dGTP were 0.71, 0.75, 0.42, and 0.39 muM, respectively. The base composition of template has no profound effect on the extent of inhibition. The drug caused uncompetititve inhibition with respect to template which indicated that phosphonoacetate did not bind directly to template DNA. Results are presented which suggest that phosphonoacetate did not affect the formation of the enzyme-DNA complex but probably inhibited the elongation step of DNA polymerase reaction.
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PMID:Mode of inhibition of herpes simplex virus DNA polymerase by phosphonoacetate. 5 71

Rous sarcoma virus (RSV) can cause tumors in hamsters, which harbor complete or partially deleted RSV sequences, in their genomes. Here we have studied the localization of RSV sequences integrated into the genome of cell lines derived from six independent hamster tumors. We have found that integration occurred in the isochores richest in guanine + cytosine, of the host genome, as it had been previously observed for bovine leukemia and hepatitis B viral sequences. The integration of RSV proviral sequences is, therefore, 'isopycnic' (i.e., it takes place in host genome sequences which compositionally match the viral sequences) and compartmentalized (i.e., it occurs in a small compositional compartment of the host genome). The hamster genome compartment hosting RSV sequences precisely corresponds to a compartment of the human genome which is the most active in both transcription and recombination. The notion of a compartmentalized, isopycnic integration of RSV proviral sequences fits, therefore, with the viral integration into transcriptionally active and recombinogenic regions of the host genome observed by other authors, but is broader, in that it includes, in addition, the requirement for a compositional match between host genome sequences and expressed viral sequences.
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PMID:The isopycnic, compartmentalized integration of Rous sarcoma virus sequences. 165 23

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

Suramin blocked in vitro infection by duck hepatitis B virus, a hepadnavirus, and Rous sarcoma virus, a retrovirus. Although suramin was able to inhibit the virus-encoded reverse transcriptase activities of these two viruses, this inhibition did not appear to account for the anti-viral effect of the drug. In particular, suramin was unable to block synthesis within cells of full-length viral DNAs when added subsequent to infection. The results are consistent with the hypothesis that suramin acted by blocking virus uptake or uncoating. As further support of this hypothesis, we found that suramin also blocked infection by hepatitis delta virus, an RNA virus that is not known to employ reverse transcriptase during the initiation of infection.
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PMID:Suramin inhibits in vitro infection by duck hepatitis B virus, Rous sarcoma virus, and hepatitis delta virus. 246 6

Eight eukaryotic promoters have been tested for their activity in vivo in Escherichia coli. The rat beta-actin, rat amylase, rat chymotrypsin B, mouse metallothionein I, rat insulin I, human insulin, Rous sarcoma virus long terminal repeat (RSV LTR) and hepatitis B viral precore promoter activities were measured by using the bacterial chloramphenicol acetyltransferase coding sequences as the reporter function and by primer extension RNA analysis. All eight promoter-chloramphenicol acetyltransferase constructs produce chloramphenicol acetyltransferase activity with the following relative strengths: RSV LTR greater than rat beta-actin greater than rat insulin I greater than rat amylase greater than hepatitis B virus precore greater than human insulin greater than rat chymotrypsin B greater than mouse metallothionein I. A primer extension analysis indicates that transcription from the RSV LTR, rat insulin I, and rat beta-actin promoters initiates at the sites expected for eukaryotic rather than prokaryotic promoters. Thus the site of initiation is determined by the DNA sequence rather than by the RNA polymerase.
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PMID:Eukaryotic promoters drive gene expression in Escherichia coli. 268 Nov 82

In preparation for studies using gene transfer, we have identified transcriptional control elements which are active in primary rat hepatocytes. We used plasmids which were constructed so that the promoter or enhancer of interest initiated transcription of the bacterial chloramphenicol acetyltransferase (CAT) gene. Plasmids were introduced into primary rat hepatocytes in culture, into Hep G2 cells and other human and animal cell lines and into bone marrow stromal cells, and CAT activity was assayed after 48 hr. In primary rat hepatocytes, the highest CAT activity was obtained with plasmids carrying the Rous sarcoma virus long terminal repeat (pRSVCAT), or the SV40 early region promoter and enhancer (pSV2CAT). Hepatocytes carrying the murine cytomegalovirus immediate early promoter (pUCRNmCMVX/HCAT) also had appreciable CAT activity. No CAT activity was detected in rat hepatocytes carrying pSVOCAT (a promoterless construct), pUCRNtKCAT (herpes simplex thymidine kinase gene promoter), pLPVCAT (lymphocytotrophic papovavirus promoter) and pHBV1CAT (hepatitis B virus enhancer and core gene promoter). Therefore, for future studies of gene transfer in primary rat hepatocytes, the Rous sarcoma virus long terminal repeat or the SV40 early region promoter and enhancer can be effectively used to drive gene expression. Hep G2 cells carrying pHBV1CAT had high CAT activity. Hep G2 cells carrying pHBV2CAT (similar to pHBV1CAT, but with the hepatitis B virus sequences in reverse orientation with respect to the CAT sequences) and pHBV3CAT (similar to pHBV2CAT, but hepatitis B virus sequences are separated from the CAT sequences by about 700 bases) also expressed CAT activity, but not as strongly as with pHBV1CAT.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tissue-specific activity of heterologous viral promoters in primary rat hepatocytes and Hep G2 cells. 280 56

The ability of hepatitis B virus (HBV) to stimulate the expression of a cellular gene was investigated by using a transient-expression system. A plasmid in which the expression of the bacterial chloramphenicol acetyltransferase (cat) gene had been placed under the control of the DNA sequences that regulate the expression of the human beta-interferon gene was constructed. In Vero cells, cotransfection of the 2.7-kilobase BglII DNA fragment of HBV together with the test plasmid containing the cat gene resulted in stimulation of the expression of the cat gene. This HBV DNA fragment was specific in its trans-activation; no significant stimulation of CAT activity was observed in constructs when the promoter and enhancer elements were derived from the murine sarcoma viral long terminal repeat, Rous sarcoma virus, BK virus, or simian virus 40. Results of subcloning of the HBV DNA fragment indicate that the trans-activating function resides in a 944-base-pair EcoRV-BglII DNA fragment of the HBV genome that contains the X structural gene and its promoter element. Removal of the promoter from the X structural gene resulted in loss of the trans-activating function. A frameshift mutation within the X gene region also eliminated the trans-activating activity. These results suggest that the X antigen could play a role in HBV infections by activating the expression of cellular genes.
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PMID:Transcriptional trans-activating function of hepatitis B virus. 282 53

We have used the chloramphenicol acetyltransferase (cat) gene expression system to study the effect of the X protein of hepatitis B virus (HBV) on viral enhancers. Plasmids containing the HBV enhancer and the core gene promoter linked to the cat gene were cotransfected with a plasmid containing the X gene into the human hepatoma cell line PLC/PRF/5. Our results indicate that the transfected X gene caused a trans-activation of the HBV enhancer. If a frameshift mutation or a deletion in the X structural gene was created, this trans-activation function was abolished. This result and the observation that the frameshift mutation did not alter the transcription of X mRNA suggest that the X protein is the trans-activating factor. Using similar techniques, we found that the X protein was also capable of trans-activating the simian virus 40 (SV40) and Rous sarcoma virus enhancers (pSV2cat and pRSVcat) in CV-1 cells. However, trans-activation of the SV40 enhancer by the X protein was not observed in COS-1 cells. By cotransfecting pSV2cat and the X gene with a plasmid containing either the intact SV40 genome, the SV40 genome devoid of the T-antigen (T-ag) gene, or only the T-ag gene, we demonstrated that SV40 T-ag can suppress trans-activation by the X protein. SV40 T-ag did not inhibit expression of the X gene or inactivate the X protein. The most probable mechanism of this inhibition is that T-ag competes with the X protein for a common target.
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PMID:trans-activation of viral enhancers by the hepatitis B virus X protein. 282 5

Acquired immune deficiency syndrome (AIDS) can be transferred to patients by blood transfusions or human blood preparations, such as cryoprecipitates or factor VIII concentrates. Retroviruses have been discussed as infectious AIDS agents and more recently human T-lymphotropic retroviruses designated as HTLV type III and LAV (lymphadenopathy-associated virus) have been isolated from AIDS patients. Whether heat treatment at 60 degrees C (pasteurization) of liquid human plasma protein preparations inactivates retroviruses was therefore investigated. Pasteurization had already been included in the routine manufacturing process of human plasma protein preparations in order to guarantee safety with regard to hepatitis B. Since high titer preparations of human retroviruses were not available, heat inactivation was studied using Rous sarcoma virus added to the various plasma protein preparations tested. This retrovirus which was obtained in preparations of 6.0 log10 FFU/ml was shown to be at least as heat stable as two mammalian retroviruses studied, i.e., feline and simian sarcoma virus. In all of eight different plasma protein preparations tested, Rous sarcoma virus was completely inactivated after a heat treatment lasting no longer than 4 hr. It is thus concluded that pasteurization of liquid plasma protein preparations at 60 degrees C over a period of 10 hr must confer safety to these products with respect to AIDS, provided that the AIDS agents are retroviruses of comparable heat stability as Rous sarcoma virus and the mammalian retroviruses tested.
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PMID:Safety of human blood products: inactivation of retroviruses by heat treatment at 60 degrees C. 298 90

Cloned hepatitis B virus (HBV) DNA directs the synthesis of the viral surface antigen (HBsAg) when introduced into mouse L cells by DNA transformation. We have used recombinants between the Rous sarcoma virus long terminal repeat and subgenomic fragments of HBV DNA to localize regions of the HBV genome required for HBsAg expression. Examination of HBV-specific RNA from such transformants indicates that transcription initiates at three distinct sites (153, 163, and 183 nucleotides upstream from the translation initiation codon for mature HBsAg). Thus in these cells, a large segment of the presurface reading frame is not represented in HBsAg mRNA. The termination site of this RNA lies within the coding sequences for the viral core antigen, some 1,094 +/- 10 base pairs downstream from the TAA stop codon for HBsAg. Two additional open reading frames are present in the resultant unspliced HBsAg RNA.
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PMID:Transcription of the hepatitis B surface antigen gene in cultured murine cells initiates within the presurface region. 620 Jun 9

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