References: Hepadnaviridae


Beterams, G., B. Bottcher and M. Nassal (2000). Packaging of up to 240 subunits of a 17 kDa nuclease into the interior of recombinant hepatitis B virus capsids. FEBS Lett 481: 169-176. [PubMed]

Bruss, V.  (2007). Hepatitis B virus morphogenesis. World J Gastroenterol 13: 65-73. [PubMed]

Cui, J. and E. C. Holmes (2012). Endogenous hepadnaviruses in the genome of the budgerigar (Melopsittacus undulatus) and the evolution of avian hepadnaviruses. J Virol 86: 7688-7691. [PubMed]

Dill, J. A., A. C. Camus, J. H. Leary, F. Di Giallonardo, E. C. Holmes and T. F. Ng (2016). Distinct viral lineages from fish and amphibians reveal the complex evolutionary history of hepadnaviruses. J Virol 90: 7920-7933. [PubMed]

Gilbert, C. and C. Feschotte (2010). Genomic fossils calibrate the long-term evolution of hepadnaviruses. PLoS Biol 8: e1000495. [PubMed]

Hahn, C. M., L. R. Iwanowicz, R. S. Cornman, C. M. Conway, J. R. Winton and V. S. Blazer (2015). Characterization of a novel hepadnavirus in the white sucker (Catostomus commersonii) from the Great Lakes region of the United States. J Virol 89: 11801-11811. [PubMed] 

Hruska, J. F. and W. S. Robinson (1977). The proteins of hepatitis B Dane particle cores. J Med Virol 1: 119-131. [PubMed]

Jo, W. K., V. M. Pfankuche, H. Petersen, S. Frei, M. Kummrow, S. Lorenzen, M. Ludlow, J. Metzger, W. Baumgärtner, A. Osterhaus and E. van der Vries (2017). New avian hepadnavirus in palaeognathous bird, Germany. Emerg Infect Dis 23: 2089-2091. [PubMed]

Kann, M. (2002). Structure and molecular virology. In Hepatitis B virus human virus guide Edited by S. Locarnini & C. L. Lai. London: International Medical Press.

Krupovic, M., J. Blomberg, J. M. Coffin, I. Dasgupta, H. Fan, A. D. Geering, R. Gifford, B. Harrach, R. Hull, W. Johnson, J. F. Kreuze, D. Lindemann, C. Llorens, B. Lockhart, J. Mayer, E. Muller, N. E. Olszewski, H. R. Pappu, M. M. Pooggin, K. R. Richert-Pöggeler, S. Sabanadzovic, H. Sanfacon, J. E. Schoelz, S. Seal, L. Stavolone, J. P. Stoye, P. Y. Teycheney, M. Tristem, E. V. Koonin and J. H. Kuhn (2018). Ortervirales: new virus order unifying five families of reverse-transcribing viruses. J Virol 92: e00515-00518. [PubMed] 

Kumar, S., G. Stecher and K. Tamura (2016). MEGA7: Molecular Evolutionary Genetics Analysis version 7.0 for bigger datasets. Mol Biol Evol 33: 1870-1874. [PubMed]

Lauber, C., S. Seitz, S. Mattei, A. Suh, J. Beck, J. Herstein, J. Börold, W. Salzburger, L. Kaderali, J. A. G. Briggs and R. Bartenschlager (2017). Deciphering the origin and evolution of hepatitis B viruses by means of a family of non-enveloped fish viruses. Cell Host Microbe 22: 387-399. [PubMed]

Ning, X., D. Nguyen, L. Mentzer, C. Adams, H. Lee, R. Ashley, S. Hafenstein and J. Hu (2011). Secretion of genome-free hepatitis B virus--single strand blocking model for virion morphogenesis of para-retrovirus. PLoS Pathog 7: e1002255. [PubMed]

Norder, H., A. M. Courouce and L. O. Magnius (1992). Molecular basis of hepatitis B virus serotype variations within the four major subtypes. J Gen Virol 73: 3141-3145. [PubMed]

Okamoto, H., M. Imai, F. Tsuda, T. Tanaka, Y. Miyakawa and M. Mayumi (1987). Point mutation in the S gene of hepatitis B virus for a d/y or w/r subtypic change in two blood donors carrying a surface antigen of compound subtype adyr or adwr. J Virol 61: 3030-3034. [PubMed] 

Prassolov, A., H. Hohenberg, T. Kalinina, C. Schneider, L. Cova, O. Krone, K. Frölich, H. Will and H. Sirma (2003). New hepatitis B virus of cranes that has an unexpected broad host range. J Virol 77: 1964-1976. [PubMed]

Rasche, A., F. Lehmann, A. König, N. Goldmann, V. M. Corman, A. Moreira-Soto, A. Geipel, D. van Riel, Y. A. Vakulenko, A. L. Sander, H. Niekamp, R. Kepper, M. Schlegel, C. Akoua-Koffi, B. Souza, F. Sahr, A. Olayemi, V. Schulze, R. Petraityte-Burneikiene, A. Kazaks, K. Lowjaga, J. Geyer, T. Kuiken, C. Drosten, A. N. Lukashev, E. Fichet-Calvet, R. G. Ulrich, D. Glebe and J. F. Drexler (2019). Highly diversified shrew hepatitis B viruses corroborate ancient origins and divergent infection patterns of mammalian hepadnaviruses. Proc Natl Acad Sci USA 116: 17007-17012. [PubMed]

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Seeger, C. and W. S. Mason (2015). Molecular biology of hepatitis B virus infection. Virology 479-480: 672-686. [PubMed]

Tang, H. and A. McLachlan (2002). A pregenomic RNA sequence adjacent to DR1 and complementary to epsilon influences hepatitis B virus replication efficiency. Virology 303: 199-210. [PubMed]

Wynne, S. A., R. A. Crowther and A. G. Leslie (1999). The crystal structure of the human hepatitis B virus capsid. Mol Cell 3: 771-780. [PubMed] 

Yan, H., G. Zhong, G. Xu, W. He, Z. Jing, Z. Gao, Y. Huang, Y. Qi, B. Peng, H. Wang, L. Fu, M. Song, P. Chen, W. Gao, B. Ren, Y. Sun, T. Cai, X. Feng, J. Sui and W. Li (2012). Sodium taurocholate cotransporting polypeptide is a functional receptor for human hepatitis B and D virus. eLife 1: e00049. [PubMed]