Relevant bibliographies by topics / Avian Borna Virus

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'Avian Borna Virus'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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Journal articles on the topic "Avian Borna Virus"

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Rinder, Monika, Andreas Ackermann, Hermann Kempf, Bernd Kaspers, Rüdiger Korbel, and Peter Staeheli. "Broad Tissue and Cell Tropism of Avian Bornavirus in Parrots with Proventricular Dilatation Disease." Journal of Virology 83, no. 11 (2009): 5401–7. http://dx.doi.org/10.1128/jvi.00133-09.

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ABSTRACT Avian bornaviruses (ABV), representing a new genus within the family Bornaviridae, were recently discovered in parrots from North America and Israel with proventricular dilatation disease (PDD). We show here that closely related viruses are also present in captive European parrots of various species with PDD. The six ABV strains that we identified in clinically diseased birds are new members of the previously defined ABV genotypes 2 and 4. Viruses of both genotypes readily established persistent, noncytolytic infections in quail and chicken cell lines but did not grow in cultured mamm
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Staeheli, Peter, Monika Rinder, and Bernd Kaspers. "Avian Bornavirus Associated with Fatal Disease in Psittacine Birds." Journal of Virology 84, no. 13 (2010): 6269–75. http://dx.doi.org/10.1128/jvi.02567-09.

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ABSTRACT Thanks to new technologies which enable rapid and unbiased screening for viral nucleic acids in clinical specimens, an impressive number of previously unknown viruses have recently been discovered. Two research groups independently identified a novel negative-strand RNA virus, now designated avian bornavirus (ABV), in parrots with proventricular dilatation disease (PDD), a severe lymphoplasmacytic ganglioneuritis of the gastrointestinal tract of psittacine birds that is frequently accompanied by encephalomyelitis. Since its discovery, ABV has been detected worldwide in many captive pa
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Wensman, Jonas Johansson, Muhammad Munir, Srinivas Thaduri, et al. "The X proteins of bornaviruses interfere with type I interferon signalling." Journal of General Virology 94, no. 2 (2013): 263–69. http://dx.doi.org/10.1099/vir.0.047175-0.

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Borna disease virus (BDV) is a neurotropic, negative-stranded RNA virus causing persistent infection and progressive neurological disorders in a wide range of warm-blooded animals. The role of the small non-structural X protein in viral pathogenesis is not completely understood. Here we investigated whether the X protein of BDV and avian bornavirus (ABV) interferes with the type I interferon (IFN) system, similar to other non-structural proteins of negative-stranded RNA viruses. In luciferase reporter assays, we found that the X protein of various bornaviruses interfered with the type I IFN sy
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Payne, Susan L., Pauline Delnatte, Jianhua Guo, J. Jill Heatley, Ian Tizard, and Dale A. Smith. "Birds and bornaviruses." Animal Health Research Reviews 13, no. 2 (2012): 145–56. http://dx.doi.org/10.1017/s1466252312000205.

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AbstractIn 2008, avian bornaviruses (ABV) were identified as the cause of proventricular dilatation disease (PDD). PDD is a significant condition of captive parrots first identified in the late 1970s. ABV infection has subsequently been shown to be widespread in wild waterfowl across the United States and Canada where the virus infects 10–20% of some populations of ducks, geese and swans. In most cases birds appear to be healthy and unaffected by the presence of the virus; however, infection can also result in severe non-suppurative encephalitis and lesions similar to those seen in parrots wit
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Villanueva, Itamar, Patricia Gray, Negin Mirhosseini, et al. "The diagnosis of proventricular dilatation disease: Use of a Western blot assay to detect antibodies against avian Borna virus." Veterinary Microbiology 143, no. 2-4 (2010): 196–201. http://dx.doi.org/10.1016/j.vetmic.2009.11.041.

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Gilbert, C., J. M. Meik, D. Dashevsky, D. C. Card, T. A. Castoe, and S. Schaack. "Endogenous hepadnaviruses, bornaviruses and circoviruses in snakes." Proceedings of the Royal Society B: Biological Sciences 281, no. 1791 (2014): 20141122. http://dx.doi.org/10.1098/rspb.2014.1122.

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We report the discovery of endogenous viral elements (EVEs) from Hepadnaviridae, Bornaviridae and Circoviridae in the speckled rattlesnake, Crotalus mitchellii , the first viperid snake for which a draft whole genome sequence assembly is available. Analysis of the draft assembly reveals genome fragments from the three virus families were inserted into the genome of this snake over the past 50 Myr. Cross-species PCR screening of orthologous loci and computational scanning of the python and king cobra genomes reveals that circoviruses integrated most recently (within the last approx. 10 Myr), wh
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VOROU, R. M., V. G. PAPAVASSILIOU, and S. TSIODRAS. "Emerging zoonoses and vector-borne infections affecting humans in Europe." Epidemiology and Infection 135, no. 8 (2007): 1231–47. http://dx.doi.org/10.1017/s0950268807008527.

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SUMMARYThe purpose of this study was to assess and describe the current spectrum of emerging zoonoses between 2000 and 2006 in European countries. A computerized search of the Medline database from January 1966 to August 2006 for all zoonotic agents in European countries was performed using specific criteria for emergence. Fifteen pathogens were identified as emerging in Europe from 2000 to August 2006:Rickettsiaespp.,Anaplasma phagocytophilum,Borrelia burgdorferi,Bartonellaspp.,Francisella tularensis, Crimean Congo Haemorrhagic Fever Virus,Hantavirus, Toscana virus, Tick-borne encephalitis vi
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MAIDANA, NORBERTO A., and HYUN M. YANG. "ASSESSING THE SPATIAL PROPAGATION OF WEST NILE VIRUS." Biophysical Reviews and Letters 03, no. 01n02 (2008): 227–39. http://dx.doi.org/10.1142/s179304800800071x.

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In this work we study a spatial model for the West Nile Virus (WNV) propagation across the USA from the east to the west. WNV is an arthropod-borne flavivirus that appeared at first time in New York city in the summer of 1999 and then spread prolifically within birds. Mammals, as human and horse, do not develop sufficiently high bloodstream titers to play a significant role in transmission, which is the reason to consider the mosquito-bird cycle. The proposed model aims to study this propagation in a system of partial differential reaction-diffusion equations considering the mosquito and the a
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Jiménez de Oya, Escribano-Romero, Blázquez, Martín-Acebes, and Saiz. "Current Progress of Avian Vaccines Against West Nile Virus." Vaccines 7, no. 4 (2019): 126. http://dx.doi.org/10.3390/vaccines7040126.

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Birds are the main natural host of West Nile virus (WNV), the worldwide most distributed mosquito-borne flavivirus, but humans and equids can also be sporadic hosts. Many avian species have been reported as susceptible to WNV, particularly corvids. In the case that clinical disease develops in birds, this is due to virus invasion of different organs: liver, spleen, kidney, heart, and mainly the central nervous system, which can lead to death 24–48 h later. Nowadays, vaccines have only been licensed for use in equids; thus, the availability of avian vaccines would benefit bird populations, both
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Halwe, Nico Joel, Marco Gorka, Bernd Hoffmann, et al. "Egyptian Fruit Bats (Rousettus aegyptiacus) Were Resistant to Experimental Inoculation with Avian-Origin Influenza A Virus of Subtype H9N2, But Are Susceptible to Experimental Infection with Bat-Borne H9N2 Virus." Viruses 13, no. 4 (2021): 672. http://dx.doi.org/10.3390/v13040672.

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Influenza A viruses (IAV) of subtype H9N2, endemic in world-wide poultry holdings, are reported to cause spill-over infections to pigs and humans and have also contributed substantially to recent reassortment-derived pre-pandemic zoonotic viruses of concern, such as the Asian H7N9 viruses. Recently, a H9N2 bat influenza A virus was found in Egyptian fruit bats (Rousettus aegyptiacus), raising the question of whether this bat species is a suitable host for IAV. Here, we studied the susceptibility, pathogenesis and transmission of avian and bat-related H9N2 viruses in this new host. In a first e
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Dissertations / Theses on the topic "Avian Borna Virus"

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Ma, Wenjun. "Studies on reverse genetic systems for avian influenza virus and the Borna disease virus." [S.l.] : [s.n.], 2003. http://deposit.ddb.de/cgi-bin/dokserv?idn=969806337.

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AL-Ibadi, Basim Ibrahim Hasan [Verfasser]. "Avian borna virus in psittacine birds : viral distribution, tropism and immune response / Basim Ibrahim Hasan AL-Ibadi." Gießen : Universitätsbibliothek, 2016. http://d-nb.info/1081897791/34.

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Wanelik, Klara. "Interactions between avian colonial social structure and disease dynamics." Thesis, University of Oxford, 2015. http://ora.ox.ac.uk/objects/uuid:10f5a660-100c-4f59-a7d6-c34335d085a9.

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All wildlife populations harbour parasites. However, seabirds are likely to play a particularly important role in the maintenance and dispersal of infectious agents as a result of their colonial breeding habits. Seabird colonies are also known to be highly spatially structured, but little is known about the effects of this spatial structuring on seabird parasite dynamics. In this thesis, I use a tick-borne virus, Great Island virus (GIV), found in a large common guillemot (Uria aalge) colony bordering the North Sea as a model system to explore this relationship. I use a multidisciplinary appro
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Holicki, Cora [Verfasser], Martin H. [Akademischer Betreuer] Groschup, Martin H. [Gutachter] Groschup, and Stefanie [Gutachter] Becker. "Mosquito-borne Flaviviruses: Vector and Avian Host Susceptibility for West Nile Virus and Usutu Virus in Germany / Cora Marielle Holicki ; Gutachter: Martin H. Groschup, Stefanie Becker ; Betreuer: Martin H. Groschup." Hannover : Stiftung Tierärztliche Hochschule Hannover, 2020. http://d-nb.info/122488289X/34.

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Villanueva, Itamar D. "Selected Studies on Avian RNA Viruses." 2010. http://hdl.handle.net/1969.1/ETD-TAMU-2010-05-8033.

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There are many pathogens that infect birds and perhaps many more that researchers have not yet identified. Of all potential pathogens, the research presented in this manuscript focuses on two avian RNA viruses. First, a serodiagnostic test for newly described Avian Borna Virus (ABV), which has been recently identified as the etiological agent of Proventricular Dilatation Disease (PDD), was developed. PDD is a deadly disease which affects many birds, but to this point, has mainly been a concern of psittacines. The need for a diagnostic test is imperative. An antigen associated with PDD was iden
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Ma, Wenjun [Verfasser]. "Studies on reverse genetic systems for avian influenza virus and the Borna disease virus / vorgelegt von Wenjun Ma." 2003. http://d-nb.info/969806337/34.

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Book chapters on the topic "Avian Borna Virus"

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Franklin, Alan B., Sarah N. Bevins, and Susan A. Shriner. "Pathogens from Wild Birds at the Wildlife–Agriculture Interface." In Infectious Disease Ecology of Wild Birds. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198746249.003.0011.

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Birds are known to carry pathogens affecting human and agricultural health. Conversely, agricultural operations can serve as sources of pathogens that affect wild bird populations. This chapter provides guidelines to identify focal avian species that frequently use agricultural operations. These guidelines are coupled with identifying host types, such as maintenance and bridge hosts, and potential direct and indirect pathways for pathogen contamination from wild birds to agricultural operations, including patterns of spillover and spillback. The chapter also identifies major bacterial and viral pathogens of concern that are prevalent in birds and that affect human and agricultural health. These pathogens are then used to illustrate disease ecology concepts important at the wildlife–agriculture interface. These microorganisms include food-borne bacteria, influenza A viruses, and Newcastle disease virus. The chapter introduces the concept of contamination potential for categorizing avian species in terms of the risk they pose to contamination of agricultural operations with pathogens of concern. Finally, the chapter examines long-distance movements of wild birds in relation to pathogen introduction and illustrates this with global movement of influenza A viruses by wild birds.
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