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Query: UMLS:C0019163 (
hepatitis B
)
38,309
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hepatitis B
viruses replicate through reverse transcription of an RNA intermediate, the pregenomic RNA (pgRNA). Replication is initiated de novo and requires formation of a ribonucleoprotein complex comprising the viral reverse transcriptase (
P protein
), an RNA stem-loop structure (epsilon) on the pgRNA, and cellular proteins, including the heat shock protein Hsp90, the cochaperone p23, and additional, as yet unknown, factors. Functional complexes catalyze the synthesis of a short DNA primer that is templated by epsilon and covalently linked to the terminal protein (TP) domain of
P protein
. Currently, the only system for generating such complexes in the test tube is in vitro translation of duck
hepatitis B
virus (DHBV)
P protein
in rabbit reticulocyte lysate (RRL), which also provides the necessary factors. However, its limited translation capacity precludes a closer analysis of the complex. To overcome this restriction we sought to produce larger amounts of DHBV
P protein
by expression in Escherichia coli, followed by complex reconstitution in RRL. Because previous attempts to generate full-length
P protein
in bacteria have failed we investigated whether separate expression of the TP and reverse transcriptase-RNase H (RT-RH) domains would allow higher yields and whether these domains could trans complement each other. Indeed, TP and, after minor C-terminal modifications, also RT-RH could be expressed in substantial amounts, and when added to RRL, they were capable of epsilon-dependent DNA primer synthesis, demonstrating posttranslational activation. This reconstitution system should pave the way for a detailed understanding of the unique hepadnaviral replication initiation mechanism.
...
PMID:Reconstitution of a functional duck hepatitis B virus replication initiation complex from separate reverse transcriptase domains expressed in Escherichia coli. 1146 13
Hepatitis B
viruses, or hepadnaviruses, are small DNA-containing viruses that replicate through reverse transcription. Their prototype, HBV, causes severe liver disease in humans. The hepadnaviral
P protein
is an unusual reverse transcriptase (RT) that initiates DNA synthesis by host-factor-dependent protein priming on a specific RNA stem-loop template, epsilon, yielding a short DNA oligonucleotide covalently attached to the RT. This priming reaction can be reconstituted with in vitro-translated duck
hepatitis B
virus (DHBV)
P protein
. No direct structural data are available for any
P protein
. However, P proteins share a number of conserved motifs with other polymerases. Box A contains an invariant bulky residue recently shown to be crucial for dNTP versus NTP discrimination in RTs and some DNA polymerases; its equivalent in DHBV
P protein
would be phenylalanine 451 (F451). Four mutants, containing glycine (F451G), alanine (F451A), valine (F451V) and aspartate (F451D), were therefore analyzed for their ability to utilize dNTPs and NTPs in in vitro priming. Priming efficiencies with dNTPs decreased with decreasing side chain size but GTP utilization increased; the wild-type enzyme was inactive with GTP. In the context of complete DHBV genomes, all mutant proteins were competent for RNA encapsidation, indicating the absence of global structural alterations. Because the function of the discriminatory residue depends on its specific spatial disposition this strongly suggests a similar architecture for the
P protein
dNTP-binding pocket as in other RTs.
...
PMID:dNTP versus NTP discrimination by phenylalanine 451 in duck hepatitis B virus P protein indicates a common structure of the dNTP-binding pocket with other reverse transcriptases. 1191 30
We expressed the
Hepatitis B
virus polymerase (HBV
P protein
) using a recently introduced yeast system, Pichia methanolica. HBV (1-680 amino acids) and Duck
Hepatitis B
virus (DHBV, 1-780 amino acids) polymerase were expressed and showed DNA dependent DNA polymerase (DDDP). The DHBV polymerase had RNA dependent DNA polymerase (RDDP) and RNase H activities. We present a new simplified way of obtaining active viral
P protein
using the yeast expression system. The viral P proteins proved to be stable and were not aggregated in the yeast system.
...
PMID:Expression of the active human and duck hepatitis B virus polymerases in heterologous system of Pichia methanolica. 1210 29
A genomic characterization of
hepatitis B
virus (HBV) was done for 56 pre-S1/pre-S2 genes and 10 full-length HBV genotype C isolates from five Asian countries. Phylogenetic analysis of the pre-S1/pre-S2 genes revealed two major groups within genotype C: one for isolates from southeast Asia including Vietnam, Myanmar and Thailand (named HBV/C1) and the other for isolates from Far East Asia including Japan, Korea and China (named HBV/C2). This finding was confirmed by phylogenetic analysis based on the full-length sequence of 32 HBV genotype C isolates, including 22 from database entries. Two isolates from Okinawa, the island off the southern end of Japan, formed a different branch. Specific amino acid sequence changes were identified in the large S protein (amino acids 51, 54, 60, 62 and 73) and
P protein
(amino acids 231, 233, 236, 248, 252 and 304). Our results indicate that genotype C of HBV can be classified into at least two subgroups.
...
PMID:Genotype C of hepatitis B virus can be classified into at least two subgroups. 1476 86
Protein-primed replication of
hepatitis B
viruses (HBVs) is initiated by the chaperone dependent binding of the reverse transcriptase (
P protein
) to the bulged epsilon stem-loop on the pregenomic RNA, and the epsilon-templated synthesis of the 5' terminal nucleotides of the first DNA strand. How
P protein
recognizes the initiation site is poorly understood. In mammalian HBVs and in duck HBV (DHBV) the entire stem-loop is extensively base paired; in other avian HBVs the upper stem regions have a low base pairing potential. Initiation can be reconstituted with in vitro translated DHBV, but not HBV,
P protein
and DHBV epsilon (Depsilon) RNA. Employing the SELEX method on a constrained library of Depsilon upper stem variants, we obtained a series of well-binding aptamers. Most contained C-rich consensus motifs with very low base pairing potential; some supported initiation, others did not. Consensus-based secondary mutants allowed to pin down this functional difference to the residues flanking the conserved loop, and an unpaired U. In vitro active consensus sequences also supported virus replication. Hence, most of the upper stem acts as a spacer, which, if not base paired, warrants accessibility of relevant anchor residues. This suggests that the base paired Depsilon represents an exceptional rather than a prototypic avian HBV epsilon signal, and it offers an explanation as to why attempts to in vitro reconstitute initiation with human HBV have thus far failed.
...
PMID:SELEX-derived aptamers of the duck hepatitis B virus RNA encapsidation signal distinguish critical and non-critical residues for productive initiation of reverse transcription. 1531 8
The biological properties of latent or occult
hepatitis B
virus (HBV) have been poorly characterized as a result of the extremely low virus concentration. This report describes the phenotype of HBV reactivating in two patients after an HBsAg-negative latency period. One patient had latent HBV infection for at least 12 years without detectable viremia and symptoms of liver disease. Several full-length HBV genomes were cloned at reactivation, sequenced, and functionally tested by transfection into HuH7 cells. Genomes from both patients showed a low replication phenotype. It was caused at the level of RNA encapsidation or HBV DNA synthesis, but was not attributable to uncommon mutations in the terminal protein domain of
P protein
. A substantial subpopulation ( approximately 50%) of genomes from one patient did not express pre-S2/S mRNA and HBsAg. Site-directed mutagenesis identified a single G-A mutation within the S gene (position 458) to be responsible for this effect. The G458A mutation was also effective if the S gene was placed under control of a heterologous promoter. Furthermore, nuclear run-on transcription showed that the G458A mutation acts at the posttranscriptional level. The mutation affected a 5' splice site and prevented splicing of the pre-S2/S mRNA from position 458 to 1305. In conclusion, HBV latency may be characterized by viruses with reduced replication competence and antigen expression. In one patient, HBsAg expression was terminated by an as yet undescribed posttranscriptional mechanism. A single mutation inactivated a 5' splice site that is obviously essential for pre-S2/S mRNA accumulation. Supplementary material for this article can be found on the HEPATOLOGY website (http://www.interscience.wiley.com/jpages/0270-9139/suppmat/index.html).
...
PMID:Functional analysis of hepatitis B virus reactivating in hepatitis B surface antigen-negative individuals. 1637 63
The hepadnaviral polymerase (P) functions in a complex with viral nucleic acids and cellular chaperones. To begin to identify contacts between P and its partners, we assessed the exposure of the epitopes of six monoclonal antibodies (MAbs) to the terminal protein domain of the duck
hepatitis B
virus
P protein
in a partially denaturing buffer (RIPA) and a physiological buffer (IPP150). All MAbs immunoprecipitated in vitro translated P well in RIPA, but three immunoprecipitated P poorly in IPP150. Therefore, the epitopes for these MAbs were obscured in the native conformation of P but were exposed when P was in RIPA. Epitopes for MAbs that immunoprecipitated P poorly in IPP150 were between amino acids (aa) 138 and 202. Mutation of a highly conserved motif within this region (T3; aa 176 to 183) improved the immunoprecipitation of P by these MAbs and simultaneously inhibited DNA priming by P. Peptides containing the T3 motif inhibited DNA priming in a dose-dependent manner, whereas eight irrelevant peptides did not. T3 function appears to be conserved among the hepadnaviruses because mutating T3 ablated DNA synthesis in both duck
hepatitis B
virus and
hepatitis B
virus. These results indicate that (i) the conserved T3 motif is a molecular contact point whose ligand can be competed by soluble T3 peptides, (ii) the occupancy of T3 obscures the epitopes for three MAbs, and (iii) proper occupancy of T3 by its ligand is essential for DNA priming. Therefore, small-molecule ligands that compete for binding to T3 with its natural ligand could form a novel class of antiviral drugs.
...
PMID:Identification of an essential molecular contact point on the duck hepatitis B virus reverse transcriptase. 1605 9
Hepadnaviruses establish chronic liver infections, but the mechanisms of persistence and immune evasion are poorly understood. We previously found that the duck
hepatitis B
virus (DHBV) and
hepatitis B
virus reverse transcriptases (
P protein
) unexpectedly accumulate in the cytoplasm where they could affect function(s) beyond viral DNA synthesis, such as gene expression. Therefore, we measured effects of DHBV P on gene expression from reporter constructs and the viral genome. P reduced reporter expression at the mRNA level to approximately 30-40%, independent of reporter tested. Accumulation of the viral pregenomic RNA from its native promoter was suppressed three-to four-fold by P, and accumulation of the capsid protein and intracellular core particles was similarly suppressed because the pregenomic RNA encodes the capsid protein. Therefore, suppression of the pregenomic RNA by DHBV P creates a negative feedback loop to limit viral antigen accumulation and replication, possibly contributing to maintenance of chronic infection.
...
PMID:Suppression of mRNA accumulation by the duck hepatitis B virus reverse transcriptase. 1656 57
Our recent observation that
hepatitis B
virus (HBV) DNA polymerase (P) might initiate minus-strand DNA synthesis without primer [Kim et al., (2004) Virology 322, 22-30], raised a possibility that HBV
P protein
may have the potential to function as an RNA polymerase. Thus, we mutated Phe 436, a bulky amino acid with aromatic side chain, at the putative dNTP-binding cleft in reverse transcriptase (RT) domain of
P protein
to smaller amino acids (Gly or Val), and examined RNA polymerase activity. HBV core particles containing RT dNTP-binding cleft mutant
P protein
were able to incorporate (32)P-ribonucleotides, but not HBV core particles containing wild type (wt), priming-deficient mutant, or RT-deficient mutant P proteins. Since all the experiments were conducted with core particles isolated from transfected cells, our results indicate that the HBV RT mutant core particles containing RT dNTP-binding cleft mutant
P protein
could incorporate both deoxyribonucleotides and ribonucleotides in replicating systems.
...
PMID:Incorporation of deoxyribonucleotides and ribonucleotides by a dNTP-binding cleft mutated reverse transcriptase in hepatitis B virus core particles. 1790 Jun 49
All
hepatitis B
viruses replicate by protein-primed reverse transcription, employing a specialized reverse transcriptase,
P protein
, that carries a unique terminal protein (TP) domain. To initiate reverse transcription,
P protein
must bind to a stem-loop, epsilon, on the pregenomic RNA template. TP then provides a Y residue for covalent attachment of the first nucleotide of an epsilon-templated DNA oligonucleotide (priming reaction) that serves to initiate full-length minus-strand DNA synthesis. epsilon binding requires the chaperone-dependent conversion of inactive
P protein
into an activated, metastable form designated P*. However, how P* differs structurally from
P protein
is not known. Here we used an in vitro reconstitution system for active duck
hepatitis B
virus P combined with limited proteolysis, site-specific antibodies, and defined P mutants to structurally compare nonactivated versus chaperone-activated versus primed
P protein
. The data show that Hsp70 action, under conditions identical to those required for functional activation, transiently exposes the C proximal TP region which is, probably directly, involved in epsilon RNA binding. Notably, after priming and epsilon RNA removal, a very similar new conformation appears stable without further chaperone activity; hence, the activation of
P protein
is triggered by energy-consuming chaperone action but may be completed by template RNA binding.
...
PMID:Chaperones activate hepadnavirus reverse transcriptase by transiently exposing a C-proximal region in the terminal protein domain that contributes to epsilon RNA binding. 1791 10
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