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Query: UMLS:C0019163 (
hepatitis B
)
38,309
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hepatitis delta virus (HDV) is a defective RNA virus which is dependent on
hepatitis B
virus for essential helper functions. Only a single highly basic
phosphoprotein
, HDV antigen (HDAg), is expressed by the HDV genome during infection in humans. Antibody directed to HDAg is important in the diagnosis of HDV infection, and it is likely but not yet proven that the immune response to HDAg provides significant protection against subsequent exposures to HDV. In an effort to map the antigenic domains of HDAg, 209 overlapping hexapeptides, spanning the entire 214 amino acid residues of the protein, were synthesized on polyethylene pins and probed by enzyme-linked immunosorbent assay with sera containing high titers of anti-HD antibodies. Domains recognized by antibodies present in serum from human chronic carriers of this virus included residues 2 to 7, 63 to 74, 86 to 91, 94 to 100, 159 to 172, 174 to 195, and 197 to 207. Antibody from an acutely superinfected woodchuck recognized similar epitopes, as well as a domain spanning residues 121 to 128. Together, residues in these antigenic domains constitute 41% of the HDAg molecule. Oligopeptides 15 to 29 residues in length and representing epitopes of HDAg found to be dominant in humans (residues 2 to 17, 156 to 184, and 197 to 211) were synthesized in bulk and found to possess significant antigenic activity by microdilution enzyme-linked immunosorbent assay. The reactivity of peptide 197-211 with human sera confirms that the entire 214 amino acids of HDAg are expressed during infection in vivo. In addition, these results suggest that synthetic peptides may be useful reagents for development of new and improved diagnostic tests for HDV infection.
...
PMID:Immunogenic domains of hepatitis delta virus antigen: peptide mapping of epitopes recognized by human and woodchuck antibodies. 168 90
The antigenic determinant recognized by a HLA-DPw4-restricted human T cell clone specific for rabies virus was identified by using a vaccinia-rabies nonstructural
phosphoprotein
recombinant virus and synthetic peptides of the sequence of rabies nonstructural Ag. These peptides were selected on the basis of three models that predict T cell epitopes. The antigenic determinant recognized by the rabies virus-specific T cell clone contained a five-amino acid segment highly homologous to a sequence found in a
hepatitis B
surface Ag epitope that stimulates human T cells in the context of the HLA-DPw4. A preliminary model of DPw4-restricted T cell determinants is elaborated based on a hypothesis of how the 2 alpha-helical peptides may bind to this MHC molecule. Results are further discussed in the context of the usefulness in identifying DPw4-restricted T cell epitopes for the production of synthetic vaccines because this MHC class II molecule is found with high frequency in the population.
...
PMID:Identification of a rabies virus T cell epitope on the basis of its similarity with a hepatitis B surface antigen peptide presented to T cells by the same MHC molecule (HLA-DPw4). 169 5
We have analyzed the translocation of
hepatitis B
virus (HBV) precore (PC) proteins by using Xenopus oocytes injected with a synthetic PC mRNA. The PC region is a 29-amino-acid sequence that precedes the 21.5-kDa HBV capsid or core (C) protein (p21.5) and directs the secretion of core-related proteins. The first 19 PC amino acids provide a signal peptide that is cleaved with the resultant translocation of a 22.5-kDa species (p22.5), in which the last 10 PC residues precede the complete p21.5 C polypeptide. Most p22.5 is matured to 16-20 kDa species by carboxyl-terminal proteolytic cleavage prior to secretion. Here we show that some four unexpected PC proteins of 24 to 25 kDa are produced in addition to the secretion products described above. Protease protection and membrane cosedimentation experiments reveal that all PC proteins behave as expected for proteins that are translocated into the lumen of the endoplasmic reticulum except for the single largest PC protein (p25), which is not translocated. Like p21.5, p25 is a
phosphoprotein
that localizes to the oocyte cytosol and nucleus, and protease digestion studies suggest that the two molecules have similar two-domain structures. Radiosequencing of immobilized p25 demonstrates that it contains the intact PC signal peptide and represents the unprocessed translation product of the entire PC/C locus. Thus, while many HBV PC protein molecules are correctly targeted to intracellular membranes and translocated, a significant fraction of these molecules can evade translocation and processing.
...
PMID:Hepatitis B virus p25 precore protein accumulates in Xenopus oocytes as an untranslocated phosphoprotein with an uncleaved signal peptide. 172 93
Core protein is the major component of the core particle (nucleocapsid) of human
hepatitis B
virus. Core particles and core proteins are involved in a number of important functions in the replication cycle of the virus, including RNA packaging, DNA synthesis, and recognition of viral envelope proteins. Core protein is a
phosphoprotein
with most, if not all, of the phosphorylation on C-terminal serine residues. In this study, we identified a serine kinase activity from the ribosome-associated protein fraction of cytoplasm that could specifically bind and phosphorylate the C-terminal portion of recombinant core protein. This kinase is referred to as core-associated kinase (CAK). CAK could be inhibited by the kinase inhibitors heparin and manganese ions but not by spermidine, DRB, H89, or H7, indicating that CAK is distinct from protein kinase A and protein kinase C. CAK could be partially purified by heparin-Sepharose CL-6B and phosphocellulose P11 columns. By using a far-Western assay, three specific proteins, of 46, 35, and 13 kDa, were shown to interact with the C-terminal part of the core protein. These three proteins were present only in the eluted fractions that contains the CAK activity. An in-gel kinase assay showed that a 46-kDa kinase in the same fraction could bind and phosphorylate the C-terminal part of the recombinant core protein. These results indicate that this 46-kDa kinase is most probably CAK. A similar 46-kDa kinase, which exhibits the same profile of sensitivity to kinase inhibitors as that of CAK, is present in both purified intracellular core particles and extracellular 42-nm virions, suggesting that CAK is a candidate for the core particle-associated kinase.
...
PMID:Phosphorylation of the core protein of hepatitis B virus by a 46-kilodalton serine kinase. 955 62
The simian parainfluenza virus 5 (SV5) V/P gene encodes two proteins: V and the
phosphoprotein
P. The V and P proteins are amino coterminal for 164 residues, but they have unique carboxyl termini. The unique carboxyl terminus of V contains seven cysteine residues, resembles a zinc finger, and binds two atoms of zinc. In a glutathione-S-transferase (GST)-fusion protein selection of cell lysate assay, the GST-V protein was found to interact with the 127-kDa subunit (DDB1) of the damage-specific DNA binding protein (DDB) [also known as UV-damaged DNA binding protein (UV-DDB), xeroderma pigmentosum group E binding factor (XPE-BF), and the
hepatitis B
virus X-associated protein 1 (XAP-1)]. A reciprocal GST-DDB1 fusion protein selection assay of SV5-infected cell lysates showed that DDB1 and V interact, and it was found that V and DDB1 could be coimmunoprecipitated from SV5-infected cells or from cells expressing V and DDB1 using the vaccinia virus T7 expression system. The interaction of V and DDB1 involves the carboxyl-terminal domain of V in that either deletion of the V carboxyl-terminal domain or substitution of the cysteine residues (C189, C193, C205, C207, C210, C214, and C217) in the zinc-binding domain with alanine was able to disrupt binding to DDB1. The V proteins of the mumps virus, human parainfluenza virus 2 (hPIV2), and measles virus have also been found to interact with DDB1 in GST-fusion protein selection assays using in vitro transcribed and translated DDB1.
...
PMID:The V protein of the paramyxovirus SV5 interacts with damage-specific DNA binding protein. 974 Jul 90
Hepatitis B
virus (HBV) core protein is a
phosphoprotein
. Its three major phosphorylation sites have been identified at the serine residues located at amino acids 157, 164, and 172. In order to investigate the role of core protein phosphorylation in HBV replication, these three serine residues were mutated to alanine to mimic nonphosphorylated serine or to glutamic acid to mimic phosphoserine. The nonphosphorylated core protein analog did not package the HBV pregenomic RNA, and the phosphorylated analog packaged the pregenomic RNA but failed to support viral DNA replication. These results indicate that the core protein phosphorylation may be important for pregenomic RNA packaging and that its dephosphorylation may be important for viral DNA replication. The individual roles of these three major phosphorylation sites in HBV replication were further investigated by being mutated to alanine in different combinations. The results showed that the serine residue at amino acid 157 was not essential for pregenomic RNA packaging, whereas the serine residues at amino acids 164 and 172 were more important. Furthermore, the serine residue at amino acid 157 was not essential for viral DNA replication or viral maturation.
...
PMID:Roles of the three major phosphorylation sites of hepatitis B virus core protein in viral replication. 1038 59
The HBV (
hepatitis B
virus) core is a
phosphoprotein
whose assembly, replication, encapsidation and localization are regulated by phosphorylation. It is known that PKC (protein kinase C) regulates pgRNA (pregenomic RNA) encapsidation by phosphorylation of the C-terminus of core, which is a component packaged into capsid. Neither the N-terminal residue phosphorylated by PKC nor the role of the C-terminal phosphorylation have been cleary defined. In the present study we found that HBV Cp149 (core protein C-terminally truncated at amino acid 149) expressed in Escherichia coli was phosphorylated by PKC at Ser(106). PKC-mediated phosphorylation increased core affinity, as well as assembly and capsid stability. In vitro phosphorylation with core mutants (S26A, T70A, S106A and T114A) revealed that the Ser(106) mutation inhibited phosphorylation of core by PKC. CD analysis also revealed that PKC-mediated phosphorylation stabilized the secondary structure of capsid. When either pCMV/FLAG-Cp149[WT (wild-type)] or pCMV/FLAG-S106A Cp149 was transfected into Huh7 human hepatoma cells, mutant capsid level was decreased by 2.06-fold with the S106A mutant when compared with WT, although the same level of total protein was expressed in both cases. In addition, when pUC1.2x and pUC1.2x/S106A were transfected, mutant virus titre was decreased 2.31-fold compared with WT virus titre. In conclusion, PKC-mediated phosphorylation increased capsid assembly, stability and structural stability.
...
PMID:Phosphorylation of hepatitis B virus core C-terminally truncated protein (Cp149) by PKC increases capsid assembly and stability. 1860 87
