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NTIS 바로가기Virology, v.390 no.1, 2009년, pp.130 - 138
Badtke, M.P. (Department of Molecular Microbiology and Immunology, Saint Louis University School of Medicine, 1100 S. Grand Blvd., St. Louis, MO, USA) , Khan, I. , Cao, F. , Hu, J. , Tavis, J.E.
The T3 motif on the duck hepatitis B virus reverse transcriptase (P) is proposed to be a binding site essential for viral replication, but its ligand and roles in DNA synthesis are unknown. Here, we found that T3 is needed for P to bind the viral RNA, the first step in DNA synthesis. A second motif,...
Biol. Proced. Online Badtke 8 77 2006 10.1251/bpo121 Combining genetic and biochemical approaches to identify functional molecular contact points
J. Virol. Bartenschlager 64 5324 1990 10.1128/JVI.64.11.5324-5332.1990 The P gene product of hepatitis B virus is required as a structural component for genomic RNA encapsidation
Semin. Liver Dis. Bartholomeusz 26 162 2006 10.1055/s-2006-939758 Antiviral drug resistance: clinical consequences and molecular aspects
Antivir. Ther. Bartholomeusz 9 149 2004 10.1177/135965350400900203 Comparisons of the HBV and HIV polymerase, and antiviral resistance mutations
J. Virol. Beck 71 4971 1997 10.1128/JVI.71.7.4971-4980.1997 Sequence- and structure-specific determinants in the interaction between the RNA encapsidation signal and reverse transcriptase of avian hepatitis B viruses
Mol. Cell Biol. Beck 18 6265 1998 10.1128/MCB.18.11.6265 Formation of a functional hepatitis B virus replication initiation complex involves a major structural alteration in the RNA template
J. Biol. Chem. Beck 278 36128 2003 10.1074/jbc.M301069200 Efficient Hsp90-independent in vitro activation by Hsc70 and Hsp40 of duck hepatitis B virus reverse transcriptase, an assumed Hsp90 client protein
J. Virol. Cao 79 10164 2005 10.1128/JVI.79.16.10164-10170.2005 Identification of an essential molecular contact point on the duck hepatitis B virus reverse transcriptase
J. Virol. Chang 64 5553 1990 10.1128/JVI.64.11.5553-5558.1990 Effects of insertional and point mutations on the functions of the duck hepatitis B virus polymerase
J. Virol. Das 75 4771 2001 10.1128/JVI.75.10.4771-4779.2001 Molecular modeling and biochemical characterization reveal the mechanism of hepatitis B virus polymerase resistance to lamivudine (3TC) and emtricitabine (FTC)
Protein Eng. Delarue 3 461 1990 10.1093/protein/3.6.461 An attempt to unify the structure of polymerases
J. Virol. Ferrari 73 1649 1999 10.1128/JVI.73.2.1649-1654.1999 Characterization of soluble hepatitis C virus RNA dependent RNA polymerase expressed in Escherichia coli
Gastroenterology Ghany 132 1574 2007 10.1053/j.gastro.2007.02.039 Drug targets and molecular mechanisms of drug resistance in chronic hepatitis B
J. Virol. Guo 79 2729 2005 10.1128/JVI.79.5.2729-2742.2005 Identification and characterization of avihepadnaviruses isolated from exotic anseriformes maintained in captivity
Nature (London) Hirsch 344 552 1990 10.1038/344552a0 Polymerase gene products of hepatitis B viruses are required for genomic RNA packaging as well as for reverse transcription
J. Virol. Hu 74 11447 2000 10.1128/JVI.74.24.11447-11455.2000 In vitro reconstitution of a functional duck hepatitis B virus reverse transcriptase: posttranslational activation by HSP90
J. Virol. Hu 80 2141 2006 10.1128/JVI.80.5.2141-2150.2006 Hepatitis B virus reverse transcriptase and epsilon RNA sequences required for specific interaction in vitro
Proc. Natl. Acad. Sci. U.S.A. Hu 93 1060 1996 10.1073/pnas.93.3.1060 Hsp90 is required for the activity of a hepatitis B virus reverse transcriptase
EMBO J. Hu 16 59 1997 10.1093/emboj/16.1.59 Hepadnavirus assembly and reverse transcription require a multi-component chaperone complex which is incorporated into nucleocapsids
J. Virol. Hu 76 269 2002 10.1128/JVI.76.1.269-279.2002 In vitro reconstitution of functional hepadnavirus reverse transcriptase with cellular chaperone proteins
J. Virol. Hu 78 13122 2004 10.1128/JVI.78.23.13122-13131.2004 Requirement of heat shock protein 90 for human hepatitis B virus reverse transcriptase function
EMBO J. Junker-Niepmann 9 3389 1990 10.1002/j.1460-2075.1990.tb07540.x A short cis-acting sequence is required for hepatitis B virus pregenome encapsidation and sufficient for packaging of foreign RNA
J. Virol. Lanford 71 2996 1997 10.1128/JVI.71.4.2996-3004.1997 Transcomplementation of nucleotide priming and reverse transcription between independently expressed TP and RT domains of the hepatitis B virus reverse transcriptase
PNAS Lanford 95 5757 1998 10.1073/pnas.95.10.5757 Isolation of a hepadnavirus from the woolly monkey, a New World primate
J. Virol. Lanford 73 1885 1999 10.1128/JVI.73.3.1885-1893.1999 Mapping of the hepatitis B virus reverse transcriptase TP and RT domains by transcomplementation for nucleotide priming and by protein-protein interaction
J. Virol. Langley 81 3992 2007 10.1128/JVI.02395-06 Inhibition of hepatitis B virus polymerase by entecavir
J. Virol. Lin 82 2305 2008 10.1128/JVI.02147-07 Inhibition of hepadnavirus reverse transcriptase-epsilon RNA interaction by porphyrin compounds
J. Virol. Lin 82 5703 2008 10.1128/JVI.02760-07 Functional and structural dynamics of hepadnavirus reverse transcriptase during protein-primed initiation of reverse transcription: effects of metal ions
EMBO J. Poch 8 3867 1989 10.1002/j.1460-2075.1989.tb08565.x Identification of four conserved motifs among the RNA-dependent polymerase encoding elements
J. Virol. Pollack 68 5579 1994 10.1128/JVI.68.9.5579-5587.1994 Site-specific RNA binding by a hepatitis B virus reverse transcriptase initiates two distinct reactions: RNA packaging and DNA synthesis
Protein Expr. Purif. Potenza 55 93 2007 10.1016/j.pep.2007.04.005 Optimized expression from a synthetic gene of an untagged RNase H domain of human hepatitis B virus polymerase which is enzymatically active
Virology Radziwill 163 123 1988 10.1016/0042-6822(88)90239-5 The duck hepatitis B virus DNA polymerase is tightly associated with the viral core structure and unable to switch to an exogenous template
J. Virol. Radziwill 64 613 1990 10.1128/JVI.64.2.613-620.1990 Mutational analysis of the hepatitis B virus P gene product: domain structure and RNase H activity
Adv. Viral Oncol. Schoedel 8 73 1989 Animal hepatitis B viruses
Virology Seeger 222 430 1996 10.1006/viro.1996.0440 Mutagenesis of a hepatitis B virus reverse transcriptase yields temperature-sensitive virus
Seeger 2977 2007 Fields Virology Hepadnaviruses
Epidemiol. Rev. Shepard 28 112 2006 10.1093/epirev/mxj009 Hepatitis B virus infection: epidemiology and vaccination
J. Med. Virol. Sprengel 15 323 1985 10.1002/jmv.1890150402 Comparative sequence analysis of duck and human hepatitis B virus genomes
J. Virol. Stahl 81 13354 2007 10.1128/JVI.01196-07 Chaperones activate hepadnavirus reverse transcriptase by transiently exposing a C-proximal region in the terminal protein domain that contributes to epsilon RNA binding
Cell Summers 29 403 1982 10.1016/0092-8674(82)90157-X Replication of the genome of a hepatitis B-like virus by reverse transcription of an RNA intermediate
J. Virol. Tavis 70 5741 1996 10.1128/JVI.70.9.5741-5750.1996 Evidence for the activation of the hepatitis B virus polymerase by binding of its RNA template
J. Virol. Tavis 68 3536 1994 10.1128/JVI.68.6.3536-3543.1994 Hepadnavirus reverse transcription initiates within the stem-loop of the RNA packaging signal and employs a novel strand transfer
J. Virol. Tavis 72 5789 1998 10.1128/JVI.72.7.5789-5796.1998 The duck hepatitis B virus polymerase is activated by its RNA packaging signal, Epsilon
J. Virol. Wang 67 6507 1993 10.1128/JVI.67.11.6507-6512.1993 Novel mechanism for reverse transcription in hepatitis B viruses
J. Virol. Wang 68 8437 1994 10.1128/JVI.68.12.8437-8442.1994 Role of RNA in enzymatic activity of the reverse transcriptase of hepatitis B viruses
J. Virol. Wang 77 4471 2003 10.1128/JVI.77.8.4471-4480.2003 Heat shock protein 90-independent activation of truncated hepadnavirus reverse transcriptase
J. Virol. Weber 68 2994 1994 10.1128/JVI.68.5.2994-2999.1994 Hepadnavirus P protein utilizes a tyrosine residue in the TP domain to prime reverse transcription
EMBO J. Xiong 9 3353 1990 10.1002/j.1460-2075.1990.tb07536.x Origin and evolution of retroelements based upon their reverse transcriptase sequences
J. Virol. Zoulim 68 6 1994 10.1128/JVI.68.1.6-13.1994 Reverse transcription in hepatitis B viruses is primed by a tyrosine residue of the polymerase
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