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)

The circular DNA of hepatitis B Dane particles, which serves as the primer/template for an endogenous DNA polymerase, was analyzed by electrophoresis before and after a polymerase reaction and after digestion by restriction endonuclease or single-strand-specific endonuclease S1. The unreacted molecules extracted from the particles were electrophoretically heterogeneous, and treatment with S1 nuclease produced double-stranded linear DNA ranging in length from 1,700 to 2,800 base pairs (bp). After an endogenous DNA polymerase reaction, two discrete species of DNA molecules were found: a circular form and a linear form 3,200 bp long. The reaction resulted in a population of molecules with an elongated and more homogeneous double-stranded region. These results suggest that the circular molecules in Dane particles have single-stranded regions of varying lengths that are made double stranded during the DNA polymerase reaction. The endogenous DNA polymerase was found to initiate apparently at random in a region spanning more than a third of the molecule. Analysis of restriction endonuclease cleavage fragments of the fully elongated DNA revealed that although the molecules were of a uniform length, they were somewhat heterogeneous in sequence. The sum of the sizes of the 10 major endonuclease Hae III-generated fragments, detected by ethidium bromide, was 3,880 bp. Two additional fragments (B and G) detected by autoradiography after an endogenous DNA polymerase reaction with (32)P-labeled deoxynucleoside triphosphates made the total 4,910 bp.
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PMID:Structure of hepatitis B Dane particle DNA and nature of the endogenous DNA polymerase reaction. 6 27

The presence of hepatitis B virus DNA in the sera of individuals is the most definitive marker of an active viral infection. We have used polymerase chain reaction detection of hepatitis B virus DNA directly on whole blood dried as a spot on filter paper. The method is rapid, specific, and sensitive and has the ability to detect as little as 10 virus particles by ethidium bromide staining of the polymerase chain reaction-amplified products. The method is cost-effective, and the stability of the spots makes the collection and transportation of potentially infectious blood safe.
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PMID:Direct detection of hepatitis B virus from dried blood spots by polymerase chain reaction amplification. 150 Apr 93

The hepatitis B virus capsid or core protein (p21.5) binds nucleic acid through a carboxy-terminal protamine region that contains nucleic acid-binding motifs organized into four repeats (I to IV). Using carboxy-terminally truncated proteins expressed in Escherichia coli, we detected both RNA- and DNA-binding activities within the repeats. RNA-binding and packaging activity, assessed by resolving purified E. coli capsids on agarose gels and disclosing their RNA content with ethidium bromide, required only the proximal repeat I (RRRDRGRS). Strikingly, a mutant in which four Arg residues replaced repeat I was competent to package RNA, demonstrating that Arg residues drive RNA binding. In contrast, probing immobilized core proteins with 32P-nucleic acid revealed an activity which (i) required more of the protamine region (repeats I and II), (ii) appeared to bind DNA better than RNA, and (iii) was apparently modulated by phosphorylation in p21.5 derived from Xenopus oocytes. Deletion analysis suggested that this activity may depend on an SPXX-type DNA-binding motif in repeat II. Similar motifs found in repeats III and IV may also function to bind DNA. On the basis of these observations, together with a reinterpretation of recent studies showing that capsid protein mutants cause defects in viral genome replication, we propose a model suggesting that hepadnavirus capsid proteins participate directly in the intracapsid reverse transcription of RNA into DNA. In this model, repeat I binds RNA whereas the distal repeats are progressively recruited to bind elongating DNA strands. The latter motifs may be required for replication to be energetically feasible.
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PMID:RNA- and DNA-binding activities in hepatitis B virus capsid protein: a model for their roles in viral replication. 150 Dec 73

Hepatitis B virus (HBV) DNA was detected with amplification by the polymerase chain reaction method. Cloned HBV DNA equivalent to one virus genome (3 x 10(-6) pg) was detectable by ethidium bromide staining after 50 cycles of polymerase chain reaction. By applying this method, presence of HBV DNA was studied in 23 hepatitis B surface antigen (HBsAg)-positive and 11 HBsAg-negative sera from patients with chronic liver disease. Hepatitis B virus DNA was positive in 8 of 8 hepatitis B e antigen (HBeAg)-positive, in 2 of 2 HBeAg- and anti-HBe-negative, and in 12 of 13 anti-HBe-positive sera. Hepatitis B virus DNA was undetectable in all HBsAg-negative sera even with amplification. To confirm specificity, the amplified product was directly sequenced. Sequences around 122nd and 160th codon of HBs gene, which determines subtypes d/y and w/r, respectively, were analyzed. The results were compatible with recent reports regarding the relation between HBV subtypes and HBV DNA sequence at those codons. Hepatitis B virus DNA could be detected at the level of one virion by gene amplification method, and its sequence could be determined by direct sequencing in a few days.
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PMID:Detection and direct sequencing of hepatitis B virus genome by DNA amplification method. 198 19

The polymerase chain reaction (PCR) technique has been utilized for the detection of hepatitis B virus (HBV) DNA, and several factors related to the selection of primer pairs for the PCR amplification have been demonstrated. The sensitivity of the PCR assay was compared with that of slot-blot hybridization for detecting HBV-DNA. Analysis by the PCR technique with Southern blot hybridization provided a greater than 10(4)-fold increase in sensitivity over the slot-blot hybridization analysis. Also, a rapid and sensitive PCR method for the detection of serum HBV-DNA was developed: HBV-DNA is released from virions by incubating serum with NaOH followed by neutralization with HCl. HBV-DNA sequences are then detected by agarose gel electrophoresis and ethidium bromide staining after PCR amplification with successive sets of primer pairs. In testing serial samples from chimpanzees experimentally infected with HBV, HBV-DNA was detected 2-3 wk before the appearance of hepatitis surface antigen (HBsAg) and continued to be detectable for a short period after the production of antibody to HBsAg. Results from testing of human serum demonstrated that the majority of patients with HBsAg in serum had HBV-DNA as well and that some patients had HBV-DNA in serum in the absence of HBsAg.
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PMID:Detection of hepatitis B virus DNA using the polymerase chain reaction technique. 228 67

The synthesis of three hepatitis B surface antigens derived from S and pre-S proteins (adw S(140-147), [Tyr148] adw S(139-148), and adw pre-S(120-145)) has been accomplished by the continuous flow Fmoc-polyamide solid phase method. The use of different scavengers and trimethylsilyl bromide (TMSBr) in trifluoroacetic acid as deprotecting procedures is discussed.
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PMID:Continuous-flow solid-phase synthesis of potential antigenic peptides of hepatitis B virus. 240 98

We have developed a rapid procedure for the detection of serum hepatitis B virus (HBV) DNA using the polymerase chain reaction (PCR) technique. HBV DNA is released from virions by incubating serum with 0.1 M NaOH for 60 min at 37 degrees C. The mixture is brought to neutral pH with HCl, and the HBV DNA sequences are detected by agarose gel electrophoresis and ethidium bromide staining after PCR amplification with two successive sets of primer pairs. The detection limit of this method (i.e., 10(-5) pg of HBV DNA) is equivalent to that previously determined by one round of PCR amplification and Southern blot hybridization analysis. The advantages are that the assay can be completed in 1 day, is very sensitive, and does not require the use of radiolabeled reagents.
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PMID:Rapid and sensitive method for the detection of serum hepatitis B virus DNA using the polymerase chain reaction technique. 277 59

The primary structure of recombinant hepatitis B surface antigen protein produced in yeast has been confirmed by mass spectrometric peptide mapping. These studies corroborate more than 85% of the amino acid sequence derived by sequencing of the gene and identified the presence of an acetyl moiety on approximately 70% of the NH2-terminal methionine residues. Prior to the present work, direct structural analysis was largely prevented by the insolubility of this integral membrane protein and its primary degradation fragments in aqueous buffers and by partial blockage of the NH2 terminus. These difficulties were overcome by preparative isolation using electroelution of the monomeric 226 amino acid protein from a polyacrylamide electrophoretic gel in the presence of sodium dodecyl sulfate. Chymotryptic digestion of the reduced and carboxymethylated monomer produced a large number of small, predominantly hydrophobic peptides ideally suited for peptide mapping by fast atom bombardment mass spectrometry. The percentage of NH2-terminal methionine blocked by acetyl was determined by a new strategy involving cyanogen bromide cleavage, permethylation, and gas chromatography/mass spectrometry identification and quantitation of the N-methyl-N-acetylhomoserine produced.
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PMID:Structural characterization of recombinant hepatitis B surface antigen protein by mass spectrometry. 334 59

The method of preparing solid-phase immunosorbents by covalently attaching proteins from whole human serum to cyanogen bromide-activated agarose has been investigated to determine optimum concentrations of cyanogen bromide and protein, and the optimum pH for the maximum attachment of proteins from serum. Two systems in which the above immunosorbents have proved useful are described: the removal of antibodies to normal serum proteins from anti-hepatitis B serum and the removal of light chain antibodies from anti-human immunoglobulin M serum.
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PMID:Preparation of solid-phase immunosorbents by coupling human serum proteins to cyanogen bromide-activated agarose. 419 65

We covalently linked to regenerated cellulose filters a high-affinity monoclonal IgM produced against epitopes that reside on hepatitis B viral surface antigen (HBsAg). Conditions were established whereby as much as 250 micrograms of anti-HBsAg IgM could be linked to 2-4 mg of regenerated cellulose acetate by using cyanogen bromide and trichloro-s-triazine coupling agents. The immunoreactivity of the monoclonal anti-HBsAg IgM was preserved, and quantitative binding studies with HBsAg suggests that more than one functional binding site on the IgM molecule was operative. The specificity of the monoclonal anti-HBsAg IgM was established by demonstrating that a nonspecific monoclonal IgM (against influenza hemagglutinin), when coupled to the filters under identical conditions, had no effect on removal of HBsAg from serum. Most importantly, the monoclonal anti-HBsAg IgM-coupled filters quantitatively removed low levels of HBsAg from serum; after the third pass through the filter, HBsAg was undetectable in the perfusate. Further, the stability of the covalent bond between the anti-HBsAg IgM and regenerated cellulose acetate was shown by the lack of detectable murine monoclonal anti-HBsAg IgM in filtered serum despite 50 passages through the filter. Thus, we have demonstrated that monoclonal IgM antibodies with predefined specificity, when coupled to a biocompatible solid-phase support, may serve as a high-affinity and specific immunoabsorbant for quantitative removal and recovery of viral antigens from human serum. By using this approach, specific removal and recovery of many other substances from serum or plasma would seem possible.
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PMID:Quantitative removal of hepatitis B viral antigens from serum by a monoclonal IgM coupled to a biocompatible solid-phase support. 619 Jan 81


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