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]

Bao, Y., V. Chetvernin and T. Tatusova (2012). PAirwise Sequence Comparison (PASC) and its application in the classification of filoviruses. Viruses 4: 1318-27. [PubMed]

Bao, Y., V. Chetvernin and T. Tatusova (2014). Improvements to pairwise sequence comparison (PASC): a genome-based web tool for virus classification. Arch Virol 159: 3293-304. [PubMed]

Briese, T., J. C. de la Torre, A. Lewis, H. Ludwig and W. I. Lipkin (1992). Borna disease virus, a negative-strand RNA virus, transcribes in the nucleus of infected cells. Proc Natl Acad Sci U S A 89: 11486-9. [PubMed]

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.

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) .

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).

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]

Schlottau, K., L. Forth, K. Angstwurm, D. Höper, D. Zecher, F. Liesche, B. Hoffmann, V. Kegel, D. Seehofer, S. Platen, B. Salzberger, U. G. Liebert, H. H. Niller, B. Schmidt, K. Matiasek, M. J. Riemenschneider, C. Brochhausen, B. Banas, L. Renders, P. Moog, S. Wunderlich, C. L. Seifert, A. Barreiros, A. Rahmel, J. Weiss, D. Tappe, C. Herden, J. Schmidt-Chanasit, M. Schwemmle, D. Rubbenstroth, J. Schlegel, C. Pietsch, D. Hoffmann, J. Jantsch and M. Beer (2018). Fatal encephalitic Borna disease virus 1 in solid-organ transplant recipients. New Engl J Med 379: 1377-9. [PubMed]

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]

Schwemmle, M., M. Salvatore, L. Shi, J. Richt, C. H. Lee and W. I. Lipkin (1998). Interactions of the Borna disease virus P, N, and X proteins and their functional implications. J Biol Chem 273: 9007-12. [PubMed]

Shi, M., X.-D. Lin, X. Chen, J.-H. Tian, L.-J. Chen, K. Li, W. Wang, J.-S. Eden, J.-J. Shen, L. Liu, E. C. Holmes and Y.-Z. Zhang (2018). The evolutionary history of vertebrate RNA viruses. Nature 556: 197-202. [PubMed]

Staeheli, P., M. Rinder and B. Kaspers (2010). Avian bornavirus associated with fatal disease in psittacine birds. J Virol 84: 6269-75. [PubMed]

Stenglein, M. D., E. B. Leavitt, M. A. Abramovitch, J. A. McGuire and J. L. DeRisi (2014). Genome Sequence of a Bornavirus Recovered from an African Garter Snake (Elapsoidea loveridgei). Genome Announc 2: e00779-14. [PubMed]

Stitz, L., T. Bilzer and O. Planz (2002). The immunopathogenesis of Borna disease virus infection. Front Biosci 7: d541-55. [PubMed]

Stitz, L., K. Nöske, O. Planz, E. Furrer, W. I. Lipkin and T. Bilzer (1998). A functional role for neutralizing antibodies in Borna disease: influence on virus tropism outside the central nervous system. J Virol 72: 8884-92. [PubMed]

Tomonaga, K., T. Kobayashi and K. Ikuta (2002). Molecular and cellular biology of Borna disease virus infection. Microbes Infect 4: 491-500. [PubMed]

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Watanabe, Y., N. Ohtaki, Y. Hayashi, K. Ikuta and K. Tomonaga (2009). Autogenous translational regulation of the Borna disease virus negative control factor X from polycistronic mRNA using host RNA helicases. PLoS Pathog 5: e1000654. [PubMed]

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Zimmermann, V., M. Rinder, B. Kaspers, P. Staeheli and D. Rubbenstroth (2014). Impact of antigenic diversity on laboratory diagnosis of Avian bornavirus infections in birds. J Vet Diagn Invest 26: 769-77. [PubMed]

Zimmermann, W., H. Breter, M. Rudolph and H. Ludwig (1994). Borna disease virus: immunoelectron microscopic characterization of cell-free virus and further information about the genome. J Virol 68: 6755-8. [PubMed]