References: Bornaviridae

Bajramovic, J. J., S. Munter, S. Syan, U. Nehrbass, M. Brahic and D. Gonzalez-Dunia (2003). Borna disease virus glycoprotein is required for viral dissemination in neurons. J Virol 77: 12222-31. [PubMed]

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Briese, T., A. Schneemann, A. J. Lewis, Y. S. Park, S. Kim, H. Ludwig and W. I. Lipkin (1994). Genomic organization of Borna disease virus. Proc Natl Acad Sci U S A 91: 4362-6. [PubMed]

Chase, G., D. Mayer, A. Hildebrand, R. Frank, Y. Hayashi, K. Tomonaga and M. Schwemmle (2007). Borna disease virus matrix protein is an integral component of the viral ribonucleoprotein complex that does not interfere with polymerase activity. J Virol 81: 743-9. [PubMed]

Costa, V. A., J. C. O. Mifsud, D. Gilligan, J. E. Williamson, E. C. Holmes and J. L. Geoghegan (2021). Metagenomic sequencing reveals a lack of virus exchange between native and invasive freshwater fish across the Murray-Darling Basin, Australia. Virus Evol 7: veab034. [PubMed]

Cubitt, B., C. Oldstone and J. C. de la Torre (1994). Sequence and genome organization of Borna disease virus. J Virol 68: 1382-96. [PubMed]

Danner, K. and A. Mayr (1979). In vitro studies on Borna virus. II. Properties of the virus. Arch Virol 61: 261-71. [PubMed]

Duchala, C. S., K. M. Carbone and O. Narayan (1989). Preliminary studies on the biology of Borna disease virus. J Gen Virol 70: 3507-11. [PubMed]

Dürrwald, R., J. Kolodziejek, H. Weissenböck and N. Nowotny (2014). The bicolored white-toothed shrew Crocidura leucodon (HERMANN 1780) is an indigenous host of mammalian Borna disease virus. PLoS One 9: e93659. [PubMed]

Dürrwald, R., N. Nowotny, M. Beer and J. H. Kuhn (2016). Infections caused by Bornaviruses. In Clinical Virology, Fourth Edition, pp. 1395-407. Edited by D. D. Richman, R. J. Whitley & F. G. Hayden: American Society for Microbiology.

Eickmann, M., S. Kiermayer, I. Kraus, M. Gossl, J. A. Richt and W. Garten (2005). Maturation of Borna disease virus glycoprotein. FEBS Lett 579: 4751-6. [PubMed]

Fujino, K., M. Horie, T. Honda, S. Nakamura, Y. Matsumoto, I. M. Francischetti and K. Tomonaga (2012). Evolutionarily conserved interaction between the phosphoproteins and X proteins of bornaviruses from different vertebrate species. PLoS One 7: e51161. [PubMed]

Furrer, E., O. Planz and L. Stitz (2004). Inhibition of Borna disease virus-mediated cell fusion by monoclonal antibodies directed against the viral glycoprotein. Intervirology 47: 108-13. [PubMed]

Garry, C. E. and R. F. Garry (2009). Proteomics computational analyses suggest that the bornavirus glycoprotein is a class III viral fusion protein (gamma penetrene). Virol J 6: 145. [PubMed]

Gonzalez-Dunia, D., B. Cubitt and J. C. de la Torre (1998). Mechanism of Borna disease virus entry into cells. J Virol 72: 783-8. [PubMed]

Gonzalez-Dunia, D., B. Cubitt, F. A. Grasser and J. C. de la Torre (1997). Characterization of Borna disease virus p56 protein, a surface glycoprotein involved in virus entry. J Virol 71: 3208-18. [PubMed]

Hausmann, J., W. Hallensleben, J. C. de la Torre, A. Pagenstecher, C. Zimmermann, H. Pircher and P. Staeheli (1999). T cell ignorance in mice to Borna disease virus can be overcome by peripheral expression of the viral nucleoprotein. Proc Natl Acad Sci U S A 96: 9769-74. [PubMed]

Hirai, Y., Y. Hirano, A. Matsuda, Y. Hiraoka, T. Honda and K. Tomonaga (2016). Borna disease virus assembles porous cage-like viral factories in the nucleus. J Biol Chem 291: 25789-98. [PubMed]

Hoffmann, B., D. Tappe, D. Höper, C. Herden, A. Boldt, C. Mawrin, O. Niederstrasser, T. Müller, M. Jenckel, E. van der Grinten, C. Lutter, B. Abendroth, J. P. Teifke, D. Cadar, J. Schmidt-Chanasit, R. G. Ulrich and M. Beer (2015). A variegated squirrel bornavirus associated with fatal human encephalitis. New Engl J Med 373: 154-62. [PubMed]

Honda, T., M. Horie, T. Daito, K. Ikuta and K. Tomonaga (2009). Molecular chaperone BiP interacts with Borna disease virus glycoprotein at the cell surface. J Virol 83: 12622-5. [PubMed]

Honda, T. and K. Tomonaga (2013). Nucleocytoplasmic shuttling of viral proteins in borna disease virus infection. Viruses 5: 1978-90. [PubMed]

Horie, M., T. Honda, Y. Suzuki, Y. Kobayashi, T. Daito, T. Oshida, K. Ikuta, P. Jern, T. Gojobori, J. M. Coffin and K. Tomonaga (2010). Endogenous non-retroviral RNA virus elements in mammalian genomes. Nature 463: 84-7. [PubMed]

Horie, M., Y. Kobayashi, Y. Suzuki and K. Tomonaga (2013). Comprehensive analysis of endogenous bornavirus-like elements in eukaryote genomes. Philos Trans R Soc Lond B Biol Sci 368: 20120499. [PubMed]

Hyndman, T. H., C. M. Shilton, M. D. Stenglein and J. F. X. Wellehan, Jr. (2018). Divergent bornaviruses from Australian carpet pythons with neurological disease date the origin of extant Bornaviridae prior to the end-Cretaceous extinction. PLoS Pathog 14: e1006881. [PubMed]

Kawasaki, J., S. Kojima, Y. Mukai, K. Tomonaga and M. Horie (2020). One hundred million years history of bornavirus infections hidden in vertebrate genomes. bioRxivdoi.org/10.1101/2020.12.02.408005.

Kiermayer, S., I. Kraus, J. A. Richt, W. Garten and M. Eickmann (2002). Identification of the amino terminal subunit of the glycoprotein of Borna disease virus. FEBS Lett 531: 255-8. [PubMed]

Kohno, T., T. Goto, T. Takasaki, C. Morita, T. Nakaya, K. Ikuta, I. Kurane, K. Sano and M. Nakai (1999). Fine structure and morphogenesis of Borna disease virus. J Virol 73: 760-6. [PubMed]

Kojima, S., R. Sato, M. Yanai, Y. Komatsu, M. Horie, M. Igarashi and K. Tomonaga (2019). Splicing-dependent subcellular targeting of Borna disease virus nucleoprotein isoforms. J Virol 93. [PubMed]

Kraus, I., M. Eickmann, S. Kiermayer, H. Scheffczik, M. Fluess, J. A. Richt and W. Garten (2001). Open reading frame III of borna disease virus encodes a nonglycosylated matrix protein. J Virol 75: 12098-104. [PubMed]

Kuhn, J. H., R. Dürrwald, Y. Bao, T. Briese, K. Carbone, A. N. Clawson, J. L. deRisi, W. Garten, P. B. Jahrling, J. Kolodziejek, D. Rubbenstroth, M. Schwemmle, M. Stenglein, K. Tomonaga, H. Weissenböck and N. Nowotny (2015). Taxonomic reorganization of the family Bornaviridae. Arch Virol 160: 621-32. [PubMed]

Kuhn, J. H., M. Stenglein, J. F. X. Wellehan, D. Rubbenstroth, T. Briese, R. Dürrwald, M. Horie, N. Nowotny, S. Payne, M. Schwemmle, K. Tomonaga and T. H. Hyndman (2017). ICTV Taxonomy proposal 2017.005M One (1) new genus including two (2) new species in the family Bornaviridae (order Mononegavirales) . https://ictv.global/files/proposals/approved?fid=4420.

Kumar, S., G. Stecher, M. Li, C. Knyaz and K. Tamura (2018). MEGA X: Molecular Evolutionary Genetics Analysis across Computing Platforms. Mol Biol Evol 35: 1547-9. [PubMed]

Martin, A., N. Hoefs, J. Tadewaldt, P. Staeheli and U. Schneider (2011). Genomic RNAs of Borna disease virus are elongated on internal template motifs after realignment of the 3' termini. Proc Natl Acad Sci U S A 108: 7206-11. [PubMed]

Neumann, P., D. Lieber, S. Meyer, P. Dautel, A. Kerth, I. Kraus, W. Garten and M. T. Stubbs (2009). Crystal structure of the Borna disease virus matrix protein (BDV-M) reveals ssRNA binding properties. Proc Natl Acad Sci U S A 106: 3710-5. [PubMed]

Niller, H. H., K. Angstwurm, D. Rubbenstroth, K. Schlottau, A. Ebinger, S. Giese, S. Wunderlich, B. Banas, L. F. Forth, D. Hoffmann, D. Hoper, M. Schwemmle, D. Tappe, J. Schmidt-Chanasit, D. Nobach, C. Herden, C. Brochhausen, N. Velez-Char, A. Mamilos, K. Utpatel, M. Evert, S. Zoubaa, M. J. Riemenschneider, V. Ruf, J. Herms, G. Rieder, M. Errath, K. Matiasek, J. Schlegel, F. Liesche-Starnecker, B. Neumann, K. Fuchs, R. A. Linker, B. Salzberger, T. Freilinger, L. Gartner, J. J. Wenzel, U. Reischl, W. Jilg, A. Gessner, J. Jantsch, M. Beer and B. Schmidt (2020). Zoonotic spillover infections with Borna disease virus 1 leading to fatal human encephalitis, 1999-2019: an epidemiological investigation. Lancet Infect Dis 20: 467-77. [PubMed]

Nobach, D., M. Bourg, S. Herzog, H. Lange-Herbst, J. A. Encarnacao, M. Eickmann and C. Herden (2015). Shedding of infectious Borna disease virus 1 in living bicolored white-toothed shrews. PLoS One 10: e0137018. [PubMed]

Perez, M., M. Watanabe, M. A. Whitt and J. C. de la Torre (2001). N-terminal domain of Borna disease virus G (p56) protein is sufficient for virus receptor recognition and cell entry. J Virol 75: 7078-85. [PubMed]

Poenisch, M., N. Burger, P. Staeheli, G. Bauer and U. Schneider (2009). Protein X of Borna disease virus inhibits apoptosis and promotes viral persistence in the central nervous systems of newborn-infected rats. J Virol 83: 4297-307. [PubMed]

Poenisch, M., G. Unterstab, T. Wolff, P. Staeheli and U. Schneider (2004). The X protein of Borna disease virus regulates viral polymerase activity through interaction with the P protein. J Gen Virol 85: 1895-8. [PubMed]

Poenisch, M., S. Wille, A. Ackermann, P. Staeheli and U. Schneider (2007). The X protein of borna disease virus serves essential functions in the viral multiplication cycle. J Virol 81: 7297-9. [PubMed]

Reuter, A., A. Ackermann, S. Kothlow, M. Rinder, B. Kaspers and P. Staeheli (2010). Avian Bornaviruses escape recognition by the innate immune system. Viruses 2: 927-38.

Richt, J. A., T. Furbringer, A. Koch, I. Pfeuffer, C. Herden, I. Bause-Niedrig and W. Garten (1998). Processing of the Borna disease virus glycoprotein gp94 by the subtilisin-like endoprotease furin. J Virol 72: 4528-33. [PubMed]

Rubbenstroth, D., T. Briese, R. Dürrwald, M. Horie, T. H. Hyndman, N. Nowotny, S. Payne, M. Stenglein, K. Tomonaga and J. H. Kuhn (2018). ICTV Taxonomy Proposal 2018.016M One (1) new genus including one (1) new species in the family Bornaviridae (order Mononegavirales). https://ictv.global/files/proposals/approved?fid=4421.

Rubbenstroth, D., K. Schlottau, M. Schwemmle, J. Rissland and M. Beer (2019). Human bornavirus research: Back on track! PLoS Pathog 15: e1007873. [PubMed]

Rubbenstroth, D., V. Schmidt, M. Rinder, M. Legler, S. Twietmeyer, P. Schwemmer and V. M. Corman (2016). Phylogenetic analysis supports horizontal transmission as a driving force of the spread of avian bornaviruses. PLoS One 11: e0160936. [PubMed]

Rudolph, M. G., I. Kraus, A. Dickmanns, M. Eickmann, W. Garten and R. Ficner (2003). Crystal structure of the borna disease virus nucleoprotein. Structure 11: 1219-26. [PubMed]

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Schlottau, K., B. Hoffmann, T. Homeier-Bachmann, C. Fast, R. G. Ulrich, M. Beer and D. Hoffmann (2017). Multiple detection of zoonotic variegated squirrel bornavirus 1 RNA in different squirrel species suggests a possible unknown origin for the virus. Arch Virol 162: 2747-54. [PubMed]

Schneemann, A., P. A. Schneider, R. A. Lamb and W. I. Lipkin (1995). The remarkable coding strategy of borna disease virus: a new member of the nonsegmented negative strand RNA viruses. Virology 210: 1-8. [PubMed]

Schneider, P. A., A. Schneemann and W. I. Lipkin (1994). RNA splicing in Borna disease virus, a nonsegmented, negative-strand RNA virus. J Virol 68: 5007-12. [PubMed]

Schneider, U., M. Naegele and P. Staeheli (2004). Regulation of the Borna disease virus polymerase complex by the viral nucleoprotein p38 isoform. Brief Report. Arch Virol 149: 1409-14. [PubMed]

Schwemmle, M., B. De, L. Shi, A. Banerjee and W. I. Lipkin (1997). Borna disease virus P-protein is phosphorylated by protein kinase Cepsilon and casein kinase II. J Biol Chem 272: 21818-23. [PubMed]

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