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

We investigated the case of a child who was vaccinated at birth against hepatitis B and was also given hepatitis B immune globulin, but who nevertheless later became infected with the virus. Hepatitis B virus-specific deoxyribonucleic acid covering the region of the genome encoding the predominant a epitope of hepatitis B surface antigen was amplified using the polymerase chain reaction and the nucleotide sequence determined. We present evidence for the independent emergence of an escape mutant, similar to that previously identified in Italy, where a substitution of arginine for glycine has occurred in the second loop of the a epitope.
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PMID:Independent emergence of a vaccine-induced escape mutant of hepatitis B virus. 172 88

At least two proteolytic events are involved in the biogenesis of hepatitis B virus e antigen. The first proteolytic event removes the signal peptide and results in the translocation of the precursor protein, P22, into the lumen of the endoplasmic reticulum (ER). The second proteolytic event removes the carboxy-terminal arginine-rich sequence of P22 and converts it to the 16-kDa hepatitis B virus e antigen end product. In contrast to the first proteolytic event, the second proteolytic event is suppressed by brefeldin A, a chemical that inhibits the transport of protein from the ER to the Golgi apparatus. In subcellular fractionation experiments, P22 was detected in both the ER and the Golgi fractions, but P16 was detected only in the Golgi fraction. On the basis of these results, we conclude that the conversion of P22 to P16 occurs ina post-ER compartment, mostly likely the Golgi apparatus.
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PMID:Proteolytic conversion of hepatitis B virus e antigen precursor to end product occurs in a postendoplasmic reticulum compartment. 187 Feb 12

Expression of the hepatitis B virus core antigen (HBcAg) in mouse NIH 3T3 fibroblasts has been shown previously (A. McLachlan et al., J. Virol. 61:683-692, 1987) to result in the nuclear localization of this polypeptide. Since the carboxyl terminus of HBcAg contains four clusters of arginine residues which resemble nuclear localization sequences identified in other nuclear proteins, a series of carboxyl-terminus-truncated HBcAg polypeptides were expressed in mouse fibroblasts to examine the role of these sequences in the cellular localization of HBcAg. By immunofluorescence and cell fractionation analysis, it was demonstrated that regions of the HBcAg polypeptide including the most carboxyl-terminal (cluster 1) and amino-terminal (cluster 4) clusters of arginine residues represent distinct and independent nuclear localization sequences for this polypeptide. Substitution of a threonine residue for the second arginine residue in cluster 4 inactivates the nuclear localization signal in this region of the HBcAg polypeptide, demonstrating the importance of this residue to this signal sequence. However, HBcAg fails to accumulate in the nucleus only when both nuclear localization signal sequences are simultaneously deleted or disrupted by mutation. The possible significance of the nuclear localization sequences identified in the HBcAg polypeptide is discussed in the context of the role of the nucleocapsid in the hepatitis B virus life cycle.
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PMID:Hepatitis B virus core antigen has two nuclear localization sequences in the arginine-rich carboxyl terminus. 198 70

As a step toward understanding the assembly of the hepatitis B virus (HBV) nucleocapsid at a molecular level, we sought to define the primary sequence requirements for assembly of the HBV core protein. This protein can self assemble upon expression in Escherichia coli. Applying this system to a series of C-terminally truncated core protein variants, we mapped the C-terminal limit for assembly to the region between amino acid residues 139 and 144. The size of this domain agrees well with the minimum length of RNA virus capsid proteins that fold into an eight-stranded beta-barrel structure. The entire Arg-rich C-terminal domain of the HBV core protein is not necessary for assembly. However, the nucleic acid content of particles formed by assembly-competent core protein variants correlates with the presence or absence of this region, as does particle stability. The nucleic acid found in the particles is RNA, between about 100 to some 3,000 nucleotides in length. In particles formed by the full-length protein, the core protein mRNA appears to be enriched over other, cellular RNAs. These data indicate that protein-protein interactions provided by the core protein domain from the N terminus to the region around amino acid 144 are the major factor in HBV capsid assembly, which proceeds without the need for substantial amounts of nucleic acid. The presence of the basic C terminus, however, greatly enhances encapsidation of nucleic acid and appears to make an important contribution to capsid stability via protein-nucleic acid interactions. The observation of low but detectable levels of nucleic acid in particles formed by core protein variants lacking the Arg-rich C terminus suggests the presence of a second nucleic acid-binding motif in the first 144 amino acids of the core protein. Based on these findings, the potential importance of the C-terminal core protein region during assembly in vivo into authentic, replication-competent nucleocapsids is discussed.
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PMID:Hepatitis B virus nucleocapsid assembly: primary structure requirements in the core protein. 219 Nov 49

Precore and core proteins are two related co-carboxy-terminal proteins of hepatitis B virus. Precore protein contains the entire sequence of core protein plus an amino-terminal extension of 29 amino acid residues. Both proteins can display a common antigenic determinant known as core antigen (HBcAg). Clinically, HBcAg is detected in the nucleus, cytoplasm, or both of hepatitis B virus-infected hepatocytes. In order to understand the mechanism that regulates nuclear transport of HBcAg, various portions of precore and core proteins were linked to a reporter protein, human alpha-globin, and expressed in mammalian cells. Our results indicate that the precore protein-specific sequence, although important for nuclear transport, does not contain a nuclear localization signal. Instead, a signal for nuclear transport is located near the carboxy termini of precore and core proteins in the arginine-rich domain. This signal is made up of a set of two direct PRRRRSQS repeats and is highly conserved among mammalian hepadnaviruses.
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PMID:The arginine-rich domain of hepatitis B virus precore and core proteins contains a signal for nuclear transport. 224 90

The cloning and expression of the hepatitis B middle-protein surface antigen gene in the yeast Saccharomyces cerevisiae is described. A generalized expression vector carrying the yeast glyceraldehyde-3-phosphate dehydrogenase gene promoter was used. Expressed material, in the form of supramolecular particles, was purified and characterized. Severe proteolysis within the pre-S(2) region was observed for material expressed in a wild-type yeast host. This proteolysis was substantially reduced by utilization of a protease-deficient host. Immunoblotting of sodium dodecyl sulfate-polyacrylamide gels with several antibodies of differing specificity was performed to characterize the various protein species present. All species were analyzed by N-terminal sequencing after electroelution from gels. Carbohydrate staining of gels and glycosidase treatments of the purified antigen material indicated that full-length antigen was present in both glycosylated and unglycosylated forms. Glycosylation appeared to be of both asparagine-linked and threonine/serine-linked types. Site-directed mutagenesis was used to convert two arginine residues in the pre-S(2) region of the antigen to glutamine residues. The changes abolished reactivity with one polyclonal and two monoclonal antibodies specific for epitopes within the pre-S(2) region.
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PMID:Characterization of purified hepatitis B surface antigen containing pre-S(2) epitopes expressed in Saccharomyces cerevisiae. 245 90

Hepatitis B surface antigen possesses the group-specific determinant called a and one or another member from each of two pairs of allelic determinants, d and y as well as w and r, thereby creating the four major subtypes, adw, adr, ayw and ayr. In the sequence of major surface antigen polypeptides made of 226 amino acid residues, lysine or arginine at amino acid position 122 specifies d or y determinant, and lysine or arginine at position 160 specifies w or r determinant, respectively. By means of site-directed mutagenesis and expression of mutant genes in cultured cells, the mechanism for the loss of subtypic determinants on surface antigens was investigated at the molecular level. A rare sample of surface antigen of subtype ad, devoid of w or r determinant, had asparagine at position 160. When it was converted to lysine, the surface antigen of subtype adw was obtained. Two samples of surface antigen were subtyped as ar. They lacked d determinant, despite having lysine at position 122 which usually specified it. They differed from all reported sequences of surface antigen in amino acid 144 or 145. They displayed d determinant when amino acid 144 was converted from glutamic acid to aspartic acid, or when amino acid 145 was changed from alanine to glycine. These results indicate that the key amino acid residue at position 122 or 160 is indispensable for the expression of subtypic determinants and that some distant residues are also crucially involved in conforming them.
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PMID:The loss of subtypic determinants in alleles, d/y or w/r, on hepatitis B surface antigen. 246 92

The capsid protein of hepatitis B virus (P19) is made of 183 amino acids and carries the antigenic sites of hepatitis B core antigen (HBcAg) and hepatitis B e antigen (HBeAg) on the amino-terminal domain. The carboxyl-terminal domain of P19 (amino acids 150-183) is arginine-rich (47%) and faces the interior of the nucleocapsid for the binding with DNA. Monoclonal antibody was raised against an antigenic site on this protamine-like region of P19, which was distinct from HBcAg or HBeAg sites, and the novel antigenic site(s) was provisionally designated as hepatitis B inner core antigen (HBicAg). When P19 in a low concn (150 ng/ml) was immobilized on the solid surface, HBicAg sites were preserved, while HBcAg or HBcAg sites were no longer available on it. This allowed the detection of antibodies against HBicAg (anti-HBic), by sandwiching them between immobilized P19 and anti-IgG labeled with horseradish peroxidase. Anti-HBic was detected in sera from HBsAg carriers, typically those seropositive for antibody to HBeAg. A synthetic arginine-rich decapeptide, with a sequence of Arg-Arg-Arg-Gly-Arg-Ser-Pro-Arg-Arg-Arg, representing amino acids 150-159 of P19 and conserved in the majority of reported hepatitis B virus, absorbed the activity to bind with P19 in seven (44%) out of 16 sera containing anti-HBic. These results indicate that the decapeptide carries an HBicAg epitope and the remaining amino acid sequence of the arginine-rich carboxyl terminal domain (160-183) may be responsible for the other HBicAg epitopes.
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PMID:Antigenic sites on the arginine-rich carboxyl-terminal domain of the capsid protein of hepatitis B virus distinct from hepatitis B core or e antigen. 246 50

The sequence of the preS1 region of the hepatitis B virus (HBV) envelope (env) proteins contains a dominant binding site for hepatocytes between residues preS21 and preS47. Purified HBV particles (subtype ad) were used as the immunogen to produce specific monoclonal antibodies (McAbs) against three antigenic regions (S, preS2 and preS1) of the HBV env protein. One McAb, F35.25, was found to be specific for the region 32-53 of the preS1 sequence of HBV, which largely overlapped the hepatocyte receptor binding site. The preS1-specific McAb F35.25 reacted with both HBV subtypes, ad and ay, in radioimmunoassays (RIA) and with the large surface proteins, P39 and GP42, as well as with tryptic fragments preS(1-99/103) and preS(1-113) in Western blotting experiments. This McAb F35.25 preferentially recognized, however, the homologous (ad) preS1 sequence in RIA. The ad/ay amino acid substitution within the hepatocyte receptor binding site at position 35 (Gly-Arg) may explain the relative subtype-specificity of F35.25. Finally, the F35.25 epitope was detected in all HBV particles purified from HBeAg-positive human sera, confirming that this preS1 region 32-53 is exposed at the surface of complete virions. Thus, we developed a RIA system allowing us to assess the infectivity of HBV particles by the detection of preS1 sequences associated with the viral hepatocyte receptor. Moreover, it is expected that F35.25 may be a virus-neutralizing antibody by blockage of the attachment of HBV to liver cells.
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PMID:A monoclonal antibody specific for the hepatocyte receptor binding site on hepatitis B virus. 247 66

Insertion of foreign oligopeptide sequences (40-50 amino acids in length) into the Pro144 position of hepatitis B core antigen (HBcAg) leads to the formation of chimeric capsids in Escherichia coli cells. These capsids are morphologically and immunologically similar to native HBcAg, but expose the inserted oligopeptides on their outer surface and exhibit antigenic and immunogenic characteristics of the latter. As a source of model antigenic determinants, the appropriate DNA copies excised from cloned viral genes such as the pre-S region of hepatitis B virus, the transmembrane protein gp41 of human immunodeficiency virus 1 and the envelope protein gp51 of bovine leukemia virus have been used. The localization of the inserted antigenic determinants on the surface of chimeric capsids does not depend on the presence or absence of the arginine-rich, 39 amino acid-long C terminus of HBcAg.
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PMID:Recombinant core particles of hepatitis B virus exposing foreign antigenic determinants on their surface. 248 Sep 17


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