References: Adenoviridae
Abbas, M. D., R. E. Marschang, V. Schmidt, A. Kasper and T. Papp (2011). A unique novel reptilian paramyxovirus, four atadenovirus types and a reovirus identified in a concurrent infection of a corn snake (Pantherophis guttatus) collection in Germany. Vet Microbiol 150: 70-9. [PubMed]
Abbink, P., L. F. Maxfield, D. Ng'ang'a, E. N. Borducchi, M. J. Iampietro, C. A. Bricault, J. E. Teigler, S. Blackmore, L. Parenteau, K. Wagh, S. A. Handley, G. Zhao, H. W. Virgin, B. Korber and D. H. Barouch (2015). Construction and evaluation of novel rhesus monkey adenovirus vaccine vectors. J Virol 89: 1512-22. [PubMed]
Abendroth, B., D. Höper, R. G. Ulrich, G. Larres and M. Beer (2017). A red squirrel associated adenovirus identified by a combined microarray and deep sequencing approach. Arch Virol 162: 3167-72. [PubMed]
Aboezz, Z. R., H. M. Mahsoub, G. El-Bagoury and F. W. Pierson (2019). In vitro growth kinetics and gene expression analysis of the turkey adenovirus 3, a siadenovirus. Virus Res 263: 47-54. [PubMed]
Adám, E., I. Nász, F. Hudecz, A. Lengyel, G. Mezö and O. Dobay (1998). Characterization of intertype specific epitopes on adenovirus hexons. Arch Virol 143: 1669-82. [PubMed]
Ahi, Y. S., A. O. Hassan, S. V. Vemula, K. Li, W. Jiang, G. J. Zhang and S. K. Mittal (2017). Adenoviral E4 34K protein interacts with virus packaging components and may serve as the putative portal. Sci Rep 7: 7582. [PubMed]
Ahi, Y. S. and S. K. Mittal (2016). Components of adenovirus genome packaging. Front Microbiol 7: 1503. [PubMed]
Ahi, Y. S., S. V. Vemula, A. O. Hassan, G. Costakes, C. Stauffacher and S. K. Mittal (2015). Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging. Front Microbiol 6: 318. [PubMed]
Alonso-Padilla, J., T. Papp, G. L. Kaján, M. Benkő, M. Havenga, A. Lemckert, B. Harrach and A. H. Baker (2016). Development of novel adenoviral vectors to overcome challenges observed with HAdV-5-based constructs. Mol Ther 24: 6-16. [PubMed]
Aoki, K., G. Gonzalez, R. Hinokuma, N. Yawata, M. Tsutsumi, S. Ohno and N. Kitaichi (2019). Assessment of clinical signs associated with adenoviral epidemic keratoconjunctivitis cases in southern Japan between 2011 and 2014. Diagn Microbiol Infect Dis 95: 114885. [PubMed]
Argüello-Sánchez, L. E., A. Espinosa de Los Monteros, D. Santiago-Alarcon and C. A. García-Sepúlveda (2018). Detection and prevalence of adenoviruses from free-ranging black howler monkeys (Alouatta pigra). Virus Genes 54: 818-22. [PubMed]
Arnberg, N. (2012). Adenovirus receptors: implications for targeting of viral vectors. Trends Pharmacol Sci 33: 442-8. [PubMed]
Athukorala, A., J. K. Forwood, D. N. Phalen and S. Sarker (2020). Molecular characterisation of a novel and highly divergent passerine adenovirus 1. Viruses 12: e1036. [PubMed]
Athukorala, A., D. N. Phalen, A. Das, K. J. Helbig, J. K. Forwood and S. Sarker (2021). Genomic characterisation of a highly divergent siadenovirus (psittacine siadenovirus F) from the critically endangered orange-bellied parrot (Neophema chrysogaster). Viruses 13: e1714. [PubMed]
Balboni, A., C. Musto, E. Kaehler, R. Verin, R. Caniglia, E. Fabbri, E. Carra, C. Cotti, M. Battilani and M. Delogu (2019). Genetic characterization of canine adenovirus type 1 detected by real-time polymerase chain reaction in an oral sample of an Italian wolf (Canis lupus). J Wildl Dis 55: 737-41. [PubMed]
Balik, S., E. Bunting, E. Dubovi, R. Renshaw and S. Childs-Sanford (2020). Detection of skunk adenovirus 1 in two North American porcupines (Erethizon dorsatum) with respiratory disease. J Zoo Wildl Med 50: 1012-5. [PubMed]
Ball, I., H. Behncke, V. Schmidt, F. T. Geflügel, T. Papp, A. C. Stöhr and R. E. Marschang (2014). Partial characterization of new adenoviruses found in lizards. J Zoo Wildl Med 45: 287-97. [PubMed]
Ballmann, M. Z. and B. Harrach (2016). Detection and partial genetic characterisation of novel avi- and siadenoviruses in racing and fancy pigeons (Columba livia domestica). Acta Vet Hung 64: 514-28. [PubMed]
Ballmann, M. Z. and M. Z. Vidovszky (2013). Detection of broad-host-range psittacine adenovirus (PsAdV-2) in representatives of different parrot species. [in Hungarian]. Magy Allatorvosok 135: 78-84.
Bartha, A. and J. Kisary (1970). Contribution to the heat resistance of adenoviruses. Preliminary report. Acta Vet Acad Sci Hung 20: 397-8. [PubMed]
Benkő, M., P. Élő, K. Ursu, W. Ahne, S. E. LaPatra, D. Thomson and B. Harrach (2002). First molecular evidence for the existence of distinct fish and snake adenoviruses. J Virol 76: 10056-9. [PubMed]
Benkő, M. and B. Harrach (2003). Molecular evolution of adenoviruses. Curr Top Microbiol Immunol 272: 3-35. [PubMed]
Benson, S. D., J. K. Bamford, D. H. Bamford and R. M. Burnett (1999). Viral evolution revealed by bacteriophage PRD1 and human adenovirus coat protein structures. Cell 98: 825-33. [PubMed]
Böszörményi, K. P., Podgorski, II, M. Z. Vidovszky, E. Sós, M. Benkő and B. Harrach (2020). Full genome sequence analysis of a novel adenovirus from a captive polar bear (Ursus maritimus). Virus Res 277: 197846. [PubMed]
Both, G. W. (2004). Ovine atadenovirus: a review of its biology, biosafety profile and application as a gene delivery vector. Immunol Cell Biol 82: 189-95. [PubMed]
Butcher, S. J., D. H. Bamford and S. D. Fuller (1995). DNA packaging orders the membrane of bacteriophage PRD1. EMBO J 14: 6078-86. [PubMed]
Cassmann, E., B. Zaffarano, Q. Chen, G. Li and J. Haynes (2019). Novel siadenovirus infection in a cockatiel with chronic liver disease. Virus Res 263: 164-8. [PubMed]
Chang, W. S., J. S. Eden, J. Hall, M. Shi, K. Rose and E. C. Holmes (2020). Metatranscriptomic analysis of virus diversity in urban wild birds with paretic disease. J Virol 94: e00606-20. [PubMed]
Chappell, J. D., A. E. Prota, T. S. Dermody and T. Stehle (2002). Crystal structure of reovirus attachment protein sigma1 reveals evolutionary relationship to adenovirus fiber. EMBO J 21: 1-11. [PubMed]
Chen, E. C., S. Yagi, K. R. Kelly, S. P. Mendoza, R. P. Tarara, D. R. Canfield, N. Maninger, A. Rosenthal, A. Spinner, K. L. Bales, D. P. Schnurr, N. W. Lerche and C. Y. Chiu (2011). Cross-species transmission of a novel adenovirus associated with a fulminant pneumonia outbreak in a new world monkey colony. PLoS Pathog 7: e1002155. [PubMed]
Chiocca, S., R. Kurzbauer, G. Schaffner, A. Baker, V. Mautner and M. Cotten (1996). The complete DNA sequence and genomic organization of the avian adenovirus CELO. J Virol 70: 2939-49. [PubMed]
Condezo, G. N. and C. San Martín (2017). Localization of adenovirus morphogenesis players, together with visualization of assembly intermediates and failed products, favor a model where assembly and packaging occur concurrently at the periphery of the replication center. PLoS Pathog 13: e1006320. [PubMed]
Corredor, J. C., Y. Pei and É. Nagy (2017). Fowl adenovirus-based vaccine platform. Methods Mol Biol 1581: 29-54. [PubMed]
Côrte-Real, J. V., A. M. Lopes, H. Rebelo, J. Paulo Lopes, F. Amorim, R. Pita, J. Correia, P. Melo, P. Beja, P. José Esteves and J. Abrantes (2020). Adenovirus emergence in a red squirrel (Sciurus vulgaris) in Iberian Peninsula. Transbound Emerg Dis 67: 2300-6. [PubMed]
Cortés-Hinojosa, G., F. M. Gulland, T. Goldstein, S. Venn-Watson, R. Rivera, T. B. Waltzek, M. Salemi and J. F. Wellehan, Jr. (2015). Phylogenomic characterization of California sea lion adenovirus-1. Infect Genet Evol 31: 270-6. [PubMed]
Dán, A., P. Elo, B. Harrach, Z. Zádori and M. Benkö (2001). Four new inverted terminal repeat sequences from bovine adenoviruses reveal striking differences in the length and content of the ITRs. Virus Genes 22: 175-9. [PubMed]
Dán, A., Z. Ruzsics, W. C. Russell, M. Benkö and B. Harrach (1998). Analysis of the hexon gene sequence of bovine adenovirus type 4 provides further support for a new adenovirus genus (Atadenovirus). J Gen Virol 79 1453-60. [PubMed]
Das, S., K. Fearnside, S. Sarker, J. K. Forwood and S. R. Raidal (2017). A novel pathogenic aviadenovirus from red-bellied parrots (Poicephalus rufiventris) unveils deep recombination events among avian host lineages. Virology 502: 188-97. [PubMed]
Dastjerdi, A., S. Jeckel, H. Davies, J. Irving, C. Longue, C. Plummer, M. Z. Vidovszky, B. Harrach, J. Chantrey, H. Martineau and J. Williams (2021). Novel adenovirus associated with necrotizing bronchiolitis in a captive reindeer (Rangifer tarandus). Transbound Emerg Dis,"10.1111/tbed.14374" 10.1111/tbed.14374doi: 10.1111/tbed.14374. [PubMed]
Davison, A. J., P. Akter, C. Cunningham, A. Dolan, C. Addison, D. J. Dargan, A. F. Hassan-Walker, V. C. Emery, P. D. Griffiths and G. W. G. Wilkinson (2003a). Homology between the human cytomegalovirus RL11 gene family and human adenovirus E3 genes. J Gen Virol 84: 657-63. [PubMed]
Davison, A. J., M. Benkő and B. Harrach (2003b). Genetic content and evolution of adenoviruses. J Gen Virol 84: 2895-908. [PubMed]
Davison, A. J., K. M. Wright and B. Harrach (2000). DNA sequence of frog adenovirus. J Gen Virol 81: 2431-9. [PubMed]
Dayaram, A., K. Tsangaras, S. Pavulraj, W. Azab, N. Groenke, G. Wibbelt, F. Sicks, N. Osterrieder and A. D. Greenwood (2018). Novel divergent polar bear-associated mastadenovirus recovered from a deceased juvenile polar bear. mSphere 3: e00171-18. [PubMed]
De Luca, E., R. Stimmelmayr, D. S. Rotstein and S. Sanchez (2021). A novel adenovirus detected in Bering-Chukchi-Beaufort Seas bowhead whale (Balaena mysticetus): epidemiologic data and phylogenetic characterization. J Wildl Dis 57: 652-6. [PubMed]
Del Rio, D., B. Beucher, M. Lavigne, A. Wehbi, I. Gonzalez Dopeso-Reyes, I. Saggio and E. J. Kremer (2019). CAV-2 vector development and gene transfer in the central and peripheral nervous systems. Front Mol Neurosci 12: 71. [PubMed]
Deng, L., X. Qin, P. Krell, R. Lu, S. Sharif and É. Nagy (2016). Characterization and functional studies of fowl adenovirus 9 dUTPase. Virology 497: 251-61. [PubMed]
Diakoudi, G., G. Lanave, A. Moreno, C. Chiapponi, E. Sozzi, A. Prosperi, V. Larocca, M. Losurdo, N. Decaro, V. Martella, A. Lavazza and D. Lelli (2019). Surveillance for adenoviruses in bats in Italy. Viruses 11: e523. [PubMed]
Dicks, M. D., A. J. Spencer, N. J. Edwards, G. Wadell, K. Bojang, S. C. Gilbert, A. V. Hill and M. G. Cottingham (2012). A novel chimpanzee adenovirus vector with low human seroprevalence: improved systems for vector derivation and comparative immunogenicity. PLoS One 7: e40385. [PubMed]
Diffo, J., V. N. Ndze, N. F. Ntumvi, J. M. Takuo, M. M. M. Mouiche, U. Tamoufe, J. Nwobegahay, M. LeBreton, A. Gillis, B. S. Schneider, J. M. Fair, C. Monagin, D. J. McIver, D. O. Joly, N. D. Wolfe, E. M. Rubin and C. E. Lange (2019). DNA of diverse adenoviruses detected in Cameroonian rodent and shrew species. Arch Virol 164: 2359-66. [PubMed]
Doszpoly, A., B. Harrach, S. LaPatra and M. Benkő (2019). Unconventional gene arrangement and content revealed by full genome analysis of the white sturgeon adenovirus, the single member of the genus Ichtadenovirus. Infect Genet Evol 75: 103976. [PubMed]
Doszpoly, A., Á. Hornyák and K. Bányai (2020). Complete genome analysis confirms that the pygmy marmoset adenovirus is a variant of the skunk adenovirus 1. Acta Vet Hung 68: 323-7. [PubMed]
Doszpoly, A., J. F. Wellehan, Jr., A. L. Childress, Z. L. Tarján, E. R. Kovács, B. Harrach and M. Benkő (2013). Partial characterization of a new adenovirus lineage discovered in testudinoid turtles. Infect Genet Evol 17: 106-12. [PubMed]
Duarte, A. M., J. M. F. Silva, C. R. Brito, D. S. Teixeira, F. L. Melo, B. M. Ribeiro, T. Nagata and F. S. Campos (2019). Faecal virome analysis of wild animals from Brazil. Viruses 11: e803. [PubMed]
Echavarria, M., M. Forman, M. J. van Tol, J. M. Vossen, P. Charache and A. C. Kroes (2001). Prediction of severe disseminated adenovirus infection by serum PCR. Lancet 358: 384-5. [PubMed]
Élő, P., S. L. Farkas, A. L. Dán and G. M. Kovács (2003). The p32K structural protein of the atadenovirus might have bacterial relatives. J Mol Evol 56: 175-80. [PubMed]
Farkas, S. L. and J. Gál (2009). Adenovirus and mycoplasma infection in an ornate box turtle (Terrapene ornata ornata) in Hungary. Vet Microbiol 138: 169-73. [PubMed]
Farkas, S. L., B. Harrach and M. Benkő (2008). Completion of the genome analysis of snake adenovirus type 1, a representative of the reptilian lineage within the novel genus Atadenovirus. Virus Res 132: 132-9. [PubMed]
Folegatti, P. M., K. J. Ewer, P. K. Aley, B. Angus, S. Becker, S. Belij-Rammerstorfer, D. Bellamy, S. Bibi, M. Bittaye, E. A. Clutterbuck, C. Dold, S. N. Faust, A. Finn, A. L. Flaxman, B. Hallis, P. Heath, D. Jenkin, R. Lazarus, R. Makinson, A. M. Minassian, K. M. Pollock, M. Ramasamy, H. Robinson, M. Snape, R. Tarrant, M. Voysey, C. Green, A. D. Douglas, A. V. S. Hill, T. Lambe, S. C. Gilbert and A. J. Pollard (2020). Safety and immunogenicity of the ChAdOx1 nCoV-19 vaccine against SARS-CoV-2: a preliminary report of a phase 1/2, single-blind, randomised controlled trial. Lancet 396: 467-78. [PubMed]
Fox, K. A., L. Atwater, L. Hoon-Hanks and M. Miller (2017). A mortality event in elk (Cervus elaphus nelsoni) calves associated with malnutrition, Pasteurellosis, and deer adenovirus in Colorado, USA. J Wildl Dis 53: 674-6. [PubMed]
Franzen-Klein, D., L. Adamovicz, D. McRuer, S. A. Carroll, J. F. X. Wellehan and M. C. Allender (2020). Prevlance of box turtle adenovirus in eastern box turtles (Terrapene carolina carolina) presented to a wildlife rehabilitation center in Virginia, USA. J Zoo Wildl Med 50: 769-77. [PubMed]
Gál, J., M. Mándoki, E. Sós, P. Kertész, V. Koroknai, K. Bányai and S. L. Farkas (2017). Novel adenovirus detected in kowari (Dasyuroides byrnei) with pneumonia. Acta Microbiol Immunol Hung 64: 81-90. [PubMed]
Garcia-Morante, B., J. J. Pénzes, T. Costa, J. Martorell and J. Martínez (2016). Hyperplastic stomatitis and esophagitis in a tortoise (Testudo graeca) associated with an adenovirus infection. J Vet Diagn Invest 28: 579-83. [PubMed]
Garner, M. M., J. F. X. Wellehan, R. W. Nordhausen and B. Barr (2008). Characterization of enteric infections associated with two novel atadenoviruses in colubrid snakes. J Herpetol Med Surg 18: 86-94
Geldenhuys, M., M. Mortlock, J. Weyer, O. Bezuidt, E. C. J. Seamark, T. Kearney, C. Gleasner, T. H. Erkkila, H. Cui and W. Markotter (2018). A metagenomic viral discovery approach identifies potential zoonotic and novel mammalian viruses in Neoromicia bats within South Africa. PLoS One 13: e0194527. [PubMed]
Gelderblom, H. and I. Maichle-Lauppe (1982). The fibers of fowl adenoviruses. Arch Virol 72: 289-98. [PubMed]
Gilson, T., P. Blanchette, M. Z. Ballmann, T. Papp, J. J. Pénzes, M. Benkő, B. Harrach and P. E. Branton (2016). Using the E4orf6-based E3 ubiquitin ligase as a tool to analyze the evolution of adenoviruses. J Virol 90: 7350-67. [PubMed]
Gonzalez, G., C. R. Bair, D. M. Lamson, H. Watanabe, L. Panto, M. J. Carr and A. E. Kajon (2019). Genomic characterization of human adenovirus type 4 strains isolated worldwide since 1953 identifies two separable phylogroups evolving at different rates from their most recent common ancestor. Virology 538: 11-23. [PubMed]
Gorman, J. J., T. P. Wallis, D. A. Whelan, J. Shaw and G. W. Both (2005). LH3, a "homologue" of the mastadenoviral E1B 55-kDa protein is a structural protein of atadenoviruses. Virology 342: 159-66. [PubMed]
Gottdenker, N. L., C. R. Gregory, M. B. Ard, W. W. Lorenz, R. A. Nilsen and B. W. Ritchie (2019). Histopathologic changes, ultrastructure, and molecular characterization of an adenovirus in a sun conure (Aratinga solstitialis). Avian Dis 63: 531-8. [PubMed]
Greber, U. F. and J. W. Flatt (2019). Adenovirus entry: from infection to immunity. Annu Rev Virol 6: 177-97. [PubMed]
Grgić, H., D. H. Yang and E. Nagy (2011). Pathogenicity and complete genome sequence of a fowl adenovirus serotype 8 isolate. Virus Res 156: 91-7. [PubMed]
Guardado-Calvo, P., E. M. Muñoz, A. L. Llamas-Saiz, G. C. Fox, R. Kahn, D. T. Curiel, J. N. Glasgow and M. J. van Raaij (2010). Crystallographic structure of porcine adenovirus type 4 fiber head and galectin domains. J Virol 84: 10558-68. [PubMed]
Hage, E., D. Huzly, T. Ganzenmueller, R. Beck, T. F. Schulz and A. Heim (2014). A human adenovirus species B subtype 21a associated with severe pneumonia. J Infect 69: 490-9. [PubMed]
Hall, N. H., L. L. Archer, A. L. Childress and J. F. Wellehan, Jr. (2012). Identification of a novel adenovirus in a cotton-top tamarin (Saguinus oedipus). J Vet Diagn Invest 24: 359-63. [PubMed]
Harrach, B., B. M. Meehan, M. Benkő, B. M. Adair and D. Todd (1997). Close phylogenetic relationship between egg drop syndrome virus, bovine adenovirus serotype 7, and ovine adenovirus strain 287. Virology 229: 302-8. [PubMed]
Harrach, B., Z. L. Tarján and M. Benkő (2019). Adenoviruses across the animal kingdom: a walk in the zoo. FEBS Lett 593: 3660-73. [PubMed]
Hemmi, S., M. Z. Vidovszky, J. Ruminska, S. Ramelli, W. Decurtins, U. F. Greber and B. Harrach (2011). Genomic and phylogenetic analyses of murine adenovirus 2. Virus Res 160: 128-35. [PubMed]
Hess, M., H. Blöcker and P. Brandt (1997). The complete nucleotide sequence of the egg drop syndrome virus: an intermediate between mastadenoviruses and aviadenoviruses. Virology 238: 145-56. [PubMed]
Hoeben, R. C. and T. G. Uil (2013). Adenovirus DNA replication. Cold Spring Harb Perspect Biol 5: a013003. [PubMed]
Hofmann-Sieber, H., G. Gonzalez, M. Spohn, T. Dobner and A. E. Kajon (2020). Genomic and phylogenetic analysis of two guinea pig adenovirus strains recovered from archival lung tissue. Virus Res 285: 197965. [PubMed]
Hoppe, E., M. Pauly, T. R. Gillespie, C. Akoua-Koffi, G. Hohmann, B. Fruth, S. Karhemere, N. F. Madinda, L. Mugisha, J. J. Muyembe, A. Todd, K. J. Petrzelkova, M. Gray, M. Robbins, R. A. Bergl, R. M. Wittig, K. Zuberbühler, C. Boesch, G. Schubert, F. H. Leendertz, B. Ehlers and S. Calvignac-Spencer (2015). Multiple cross-species transmission events of human adenoviruses (HAdV) during hominine evolution. Mol Biol Evol 32: 2072-84. [PubMed]
Huang, Y., H. Kang, J. Dong, L. Li, J. Zhang, J. Sun, J. Zhang and M. Sun (2020). Isolation and partial genetic characterization of a new duck adenovirus in China. Vet Microbiol 247: 108775. [PubMed]
Hyndman, T. H., J. G. Howard and R. J. Doneley (2019). Adenoviruses in free-ranging Australian bearded dragons (Pogona spp.). Vet Microbiol 234: 72-6. [PubMed]
Iglesias-Caballero, M., J. Juste, S. Vázquez-Morón, A. Falcon, C. Aznar-Lopez, C. Ibáñez, F. Pozo, G. Ruiz, J. M. Berciano, I. Garin, J. Aihartza, J. E. Echevarría and I. Casas (2018). New adenovirus groups in Western Palaearctic bats. Viruses 10: e443. [PubMed]
Ivanics, E., V. Palya, B. Markos, A. Dán, K. Ursu, B. Harrach, G. Kaján and R. Glávits (2010). Hepatitis and hydropericardium syndrome associated with adenovirus infection in goslings. Acta Vet Hung 58: 47-58. [PubMed]
Jansen van Vuren, P., M. Allam, M. R. Wiley, A. Ismail, N. Storm, M. Birkhead, W. Markotter, G. Palacios and J. T. Paweska (2018). A novel adenovirus isolated from the Egyptian fruit bat in South Africa is closely related to recent isolates from China. Sci Rep 8: 9584. [PubMed]
Jejesky de Oliveira, A. P., M. C. Valdetaro Rangel, M. Z. Vidovszky, J. L. Rossi, Jr., F. Vicentini, B. Harrach and G. L. Kaján (2020). Identification of two novel adenoviruses in smooth-billed ani and tropical screech owl. PLoS One 15: e0229415. [PubMed]
Jones, M. S., 2nd, B. Harrach, R. D. Ganac, M. M. Gozum, W. P. Dela Cruz, B. Riedel, C. Pan, E. L. Delwart and D. P. Schnurr (2007). New adenovirus species found in a patient presenting with gastroenteritis. J Virol 81: 5978-84. [PubMed]
Joseph, H. M., M. Z. Ballmann, M. M. Garner, C. S. Hanley, R. Berlinski, K. Erdélyi, A. L. Childress, S. S. Fish, B. Harrach and J. F. Wellehan, Jr. (2014). A novel siadenovirus detected in the kidneys and liver of Gouldian finches (Erythura gouldiae). Vet Microbiol 172: 35-43. [PubMed]
Junyent, F. and E. J. Kremer (2015). CAV-2--why a canine virus is a neurobiologist's best friend. Curr Opin Pharmacol 24: 86-93. [PubMed]
Kaján, G. L. (2016). Poultry adenoviruses. In Molecular Detection of Animal Viral Pathogens, pp. 735-46. Edited by L. Dongyou. Boca Raton (FL), USA: CRC Press.
Kaján, G. L., I. Affranio, A. Tóthné Bistyák, S. Kecskeméti and M. Benkő (2019). An emerging new fowl adenovirus genotype. Heliyon 5: e01732. [PubMed]
Kaján, G. L., A. J. Davison, V. Palya, B. Harrach and M. Benkő (2012). Genome sequence of a waterfowl aviadenovirus, goose adenovirus 4. J Gen Virol 93: 2457-65. [PubMed]
Kaján, G. L., A. Doszpoly, Z. L. Tarján, M. Z. Vidovszky and T. Papp (2020). Virus-host coevolution with a focus on animal and human DNA viruses. J Mol Evol 88: 41-56. [PubMed]
Kajon, A. E., D. M. Lamson and K. St George (2019). Emergence and re-emergence of respiratory adenoviruses in the United States. Curr Opin Virol 34: 63-9. [PubMed]
Kim, J. I., S. J. Oh, I. Lee, S. Park, M. S. Park and K. J. Song (2017). Evolutionary relationships of the hexon and penton base genes of novel squirrel adenovirus. Mol Phylogenet Evol 116: 25-9. [PubMed]
Kobayashi, T., H. Matsugo, J. Maruyama, H. Kamiki, A. Takada, K. Maeda, A. Takenaka-Uema, Y. Tohya, S. Murakami and T. Horimoto (2019). Characterization of a novel species of adenovirus from Japanese microbat and role of CXADR as its entry factor. Sci Rep 9: 573. [PubMed]
Kohl, C., M. Z. Vidovszky, K. Mühldorfer, P. W. Dabrowski, A. Radonić, A. Nitsche, G. Wibbelt, A. Kurth and B. Harrach (2012). Genome analysis of bat adenovirus 2: indications of interspecies transmission. J Virol 86: 1888-92. [PubMed]
Koonin, E. V., V. V. Dolja, M. Krupovic, A. Varsani, Y. I. Wolf, N. Yutin, F. M. Zerbini and J. H. Kuhn (2020). Global organization and proposed megataxonomy of the virus world. Microbiol Mol Biol Rev 84: e00061-19. [PubMed]
Koonin, E. V., M. Krupovic and N. Yutin (2015). Evolution of double-stranded DNA viruses of eukaryotes: from bacteriophages to transposons to giant viruses. Ann N Y Acad Sci 1341: 10-24. [PubMed]
Kovács, E. R. and M. Benkő (2011). Complete sequence of raptor adenovirus 1 confirms the characteristic genome organization of siadenoviruses. Infect Genet Evol 11: 1058-65. [PubMed]
Kovács, E. R., M. Jánoska, A. Dán, B. Harrach and M. Benkő (2010). Recognition and partial genome characterization by non-specific DNA amplification and PCR of a new siadenovirus species in a sample originating from Parus major, a great tit. J Virol Methods 163: 262-8. [PubMed]
Kovács, G. M., S. E. LaPatra, J. C. D'Halluin and M. Benkő (2003). Phylogenetic analysis of the hexon and protease genes of a fish adenovirus isolated from white sturgeon (Acipenser transmontanus) supports the proposal for a new adenovirus genus. Virus Res 98: 27-34. [PubMed]
Kozak, R. A., J. G. Ackford, P. Slaine, A. Li, S. Carman, D. Campbell, M. K. Welch, A. M. Kropinski and É. Nagy (2015). Characterization of a novel adenovirus isolated from a skunk. Virology 485: 16-24. [PubMed]
Krupovic, M. and D. H. Bamford (2008). Archaeal proviruses TKV4 and MVV extend the PRD1-adenovirus lineage to the phylum Euryarchaeota. Virology 375: 292-300. [PubMed]
Krupovic, M. and E. V. Koonin (2015). Polintons: a hotbed of eukaryotic virus, transposon and plasmid evolution. Nat Rev Microbiol 13: 105-15. [PubMed]
Kumagai, A., S. Kajikawa, A. Miyazaki and S. Hatama (2021). Complete genome sequence of bovine adenovirus type 7 strain Fukuroi, isolated from a cow with respiratory disease. Microbiol Resour Announc 10: e00055-21. [PubMed]
Lakatos, B., Á. Hornyák, Z. Demeter, P. Forgách, F. Kennedy and M. Rusvai (2017). Detection of a putative novel adenovirus by PCR amplification, sequencing and phylogenetic characterisation of two gene fragments from formalin-fixed paraffin-embedded tissues of a cat diagnosed with disseminated adenovirus disease. Acta Vet Hung 65: 574-84. [PubMed]
Lange, C. E., F. R. Niama, K. Cameron, S. H. Olson, R. Aime Nina, A. Ondzie, G. Bounga, B. R. Smith, J. Pante, P. Reed, U. Tamufe, A. Laudisoit, T. Goldstein, M. R. Bagamboula and D. O. Joly (2019). First evidence of a new simian adenovirus clustering with Human mastadenovirus F viruses. Virol J 16: 147. [PubMed]
Ledgerwood, J. E., A. D. DeZure, D. A. Stanley, E. E. Coates, L. Novik, M. E. Enama, N. M. Berkowitz, Z. Hu, G. Joshi, A. Ploquin, S. Sitar, I. J. Gordon, S. A. Plummer, L. A. Holman, C. S. Hendel, G. Yamshchikov, F. Roman, A. Nicosia, S. Colloca, R. Cortese, R. T. Bailer, R. M. Schwartz, M. Roederer, J. R. Mascola, R. A. Koup, N. J. Sullivan and B. S. Graham (2017). Chimpanzee adenovirus vector Ebola vaccine. New Engl J Med 376: 928-38. [PubMed]
Lee, S. Y., J. H. Kim, T. K. Seo, J. S. No, H. Kim, W. K. Kim, H. G. Choi, S. H. Kang and J. W. Song (2016). Genetic and molecular epidemiological characterization of a novel adenovirus in Antarctic penguins collected between 2008 and 2013. PLoS One 11: e0157032. [PubMed]
Lehrmann, H. and M. Cotten (1999). Characterization of CELO virus proteins that modulate the pRb/E2F pathway. J Virol 73: 6517-25. [PubMed]
Lenman, A., A. M. Liaci, Y. Liu, C. Årdahl, A. Rajan, E. Nilsson, W. Bradford, L. Kaeshammer, M. S. Jones, L. Frängsmyr, T. Feizi, T. Stehle and N. Arnberg (2015). Human adenovirus 52 uses sialic acid-containing glycoproteins and the coxsackie and adenovirus receptor for binding to target cells. PLoS Pathog 11: e1004657. [PubMed]
Lenman, A., A. M. Liaci, Y. Liu, L. Frängsmyr, M. Frank, B. S. Blaum, W. Chai, Podgorski, II, B. Harrach, M. Benkő, T. Feizi, T. Stehle and N. Arnberg (2018). Polysialic acid is a cellular receptor for human adenovirus 52. Proc Natl Acad Sci U S A 115: e4264-73. [PubMed]
Li, Y., X. Ge, H. Zhang, P. Zhou, Y. Zhu, Y. Zhang, J. Yuan, L. F. Wang and Z. Shi (2010). Host range, prevalence, and genetic diversity of adenoviruses in bats. J Virol 84: 3889-97. [PubMed]
Lion, T. (2014). Adenovirus infections in immunocompetent and immunocompromised patients. Clin Microbiol Rev 27: 441-62. [PubMed]
Liu, H., L. Jin, S. B. Koh, I. Atanasov, S. Schein, L. Wu and Z. H. Zhou (2010). Atomic structure of human adenovirus by cryo-EM reveals interactions among protein networks. Science 329: 1038-43. [PubMed]
Liu, S. J., Q. Wang, T. T. Li, S. H. Zhang, J. Y. Li, L. J. Wu, Y. Qiu and X. Y. Ge (2020). Characterization of the first genome of Porcine mastadenovirus B (HNU1 strain) and implications on its lymphoid and special origin. Virol Sin 35: 528-37. [PubMed]
Lu, Z. H., I. P. Dmitriev, D. E. Brough, E. A. Kashentseva, J. Li and D. T. Curiel (2020). A new gorilla adenoviral vector with natural lung tropism avoids liver toxicity and is amenable to capsid engineering and vector retargeting. J Virol 94: e00265-20. [PubMed]
Madarame, H., J. Uchiyama, K. Tamukai, Y. Katayama, N. Osawa, K. Suzuki, T. Mizutani and H. Ochiai (2019). Complete genome sequence of an adenovirus-1 isolate from an African pygmy hedgehog (Atelerix albiventris) exhibiting respiratory symptoms in Japan. Microbiol Resour Announc 8: e00695-19. [PubMed]
Mahsoub, H. M., L. Yuan and F. W. Pierson (2020). Turkey adenovirus 3, a siadenovirus, uses sialic acid on N-linked glycoproteins as a cellular receptor. J Gen Virol 101: 760-71. [PubMed]
Mangel, W. F. and C. San Martín (2014). Structure, function and dynamics in adenovirus maturation. Viruses 6: 4536-70. [PubMed]
Marabini, R., G. N. Condezo, M. Krupovic, R. Menéndez-Conejero, J. Gómez-Blanco and C. San Martín (2021). Near-atomic structure of an atadenovirus reveals a conserved capsid-binding motif and intergenera variations in cementing proteins. Sci Adv 7: eabe6008. [PubMed]
Marek, A., M. Z. Ballmann, C. Kosiol, B. Harrach, C. Schlötterer and M. Hess (2014a). Whole-genome sequences of two turkey adenovirus types reveal the existence of two unknown lineages that merit the establishment of novel species within the genus Aviadenovirus. J Gen Virol 95: 156-70. [PubMed]
Marek, A., G. L. Kaján, C. Kosiol, M. Benkő, A. Schachner and M. Hess (2016). Genetic diversity of species Fowl aviadenovirus D and Fowl aviadenovirus E. J Gen Virol 97: 2323-32. [PubMed]
Marek, A., G. L. Kaján, C. Kosiol, B. Harrach, C. Schlötterer and M. Hess (2014b). Complete genome sequences of pigeon adenovirus 1 and duck adenovirus 2 extend the number of species within the genus Aviadenovirus. Virology 462-463: 107-14. [PubMed]
Marttila, M., D. Persson, D. Gustafsson, M. K. Liszewski, J. P. Atkinson, G. Wadell and N. Arnberg (2005). CD46 is a cellular receptor for all species B adenoviruses except types 3 and 7. J Virol 79: 14429-36. [PubMed]
Menéndez-Conejero, R., T. H. Nguyen, A. K. Singh, G. N. Condezo, R. E. Marschang, M. J. van Raaij and C. San Martín (2017). Structure of a reptilian adenovirus reveals a phage tailspike fold stabilizing a vertebrate virus capsid. Structure 25: 1562-73.e5. [PubMed]
Mennechet, F. J. D., O. Paris, A. R. Ouoba, S. Salazar Arenas, S. B. Sirima, G. R. Takoudjou Dzomo, A. Diarra, I. T. Traore, D. Kania, K. Eichholz, E. A. Weaver, E. Tuaillon and E. J. Kremer (2019). A review of 65 years of human adenovirus seroprevalence. Expert Rev Vaccines 18: 597-613. [PubMed]
Milani, A., G. Zamperin, A. Fusaro, A. Salviato, L. Bano, L. Zandonà, R. Brunetta and I. Monne (2018). Complete genome sequence of psittacine adenovirus 1, identified from Poicephalus senegalus in Italy. Microbiol Resour Announc 7: e01037-18. [PubMed]
Miller, M. M., T. E. Cornish, T. E. Creekmore, K. Fox, W. Laegreid, J. McKenna, M. Vasquez and L. W. Woods (2017). Whole-genome sequences of Odocoileus hemionus deer adenovirus isolates from deer, moose and elk are highly conserved and support a new species in the genus Atadenovirus. J Gen Virol 98: 2320-8. [PubMed]
Mukai, Y., Y. Tomita, K. Kryukov, S. Nakagawa, M. Ozawa, T. Matsui, K. Tomonaga, T. Imanishi, Y. Kawaoka, T. Watanabe and M. Horie (2019). Identification of a distinct lineage of aviadenovirus from crane feces. Virus Genes 55: 815-24. [PubMed]
Mullis, K. G., R. S. Haltiwanger, G. W. Hart, R. B. Marchase and J. A. Engler (1990). Relative accessibility of N-acetylglucosamine in trimers of the adenovirus types 2 and 5 fiber proteins. J Virol 64: 5317-23. [PubMed]
Needle, D. B., J. L. Marr, C. J. Park, C. P. Andam, A. G. Wise, R. K. Maes, R. P. Wilkes, E. A. Anis, I. F. Sidor, D. Agnew, J. C. Ellis, P. Tate, A. Mathewson, C. Benton and R. Gibson (2020). Concurrent infection of skunk adenovirus-1, Listeria monocytogenes, and a regionally specific clade of canine distemper virus in one gray fox (Urocyon cinereoargenteus) and concurrent Listeriosis and canine distemper in a second gray fox. Pathogens 9: e591. [PubMed]
Needle, D. B., M. K. Selig, K. A. Jackson, E. Delwart, E. Tighe, S. L. Leib, T. Seuberlich and P. A. Pesavento (2019a). Fatal bronchopneumonia caused by skunk adenovirus 1 in an African pygmy hedgehog. J Vet Diagn Invest 31: 103-6. [PubMed]
Needle, D. B., A. G. Wise, C. R. Gregory, R. K. Maes, I. F. Sidor, B. W. Ritchie and D. Agnew (2019b). Necrotizing ventriculitis in fledgling chimney swifts (Chaetura pelagica) associated with a novel adenovirus, chimney swift adenovirus-1 (CsAdV-1). Vet Pathol 56: 907-14. [PubMed]
Nguyen, T. H., M. Z. Ballmann, H. T. Do, H. N. Truong, M. Benkő, B. Harrach and M. J. van Raaij (2016). Crystal structure of raptor adenovirus 1 fibre head and role of the beta-hairpin in siadenovirus fibre head domains. Virol J 13: 106. [PubMed]
Nguyen, T. H., M. Z. Vidovszky, M. Z. Ballmann, M. Sanz-Gaitero, A. K. Singh, B. Harrach, M. Benkő and M. J. van Raaij (2015). Crystal structure of the fibre head domain of bovine adenovirus 4, a ruminant atadenovirus. Virol J 12: 81. [PubMed]
Ogawa, H., M. Kajihara, N. Nao, A. Shigeno, D. Fujikura, B. M. Hang'ombe, A. S. Mweene, A. Mutemwa, D. Squarre, M. Yamada, H. Higashi, H. Sawa and A. Takada (2017). Characterization of a novel bat adenovirus isolated from straw-colored fruit bat (Eidolon helvum). Viruses 9: e371. [PubMed]
Paim, W. P., F. V. Bauermann, G. F. Kutish, A. Pillatzki, C. Long, M. Ohnstad and D. G. Diel (2021). Identification and genetic characterization of an isolate of bovine adenovirus 7 from the United States, a putative member of a new species in the genus Atadenovirus. Arch Virol 166: 2835-9. [PubMed]
Palya, V., M. Nagy, R. Glávits, E. Ivanics, D. Szalay, A. Dán, T. Süveges, B. Markos and B. Harrach (2007). Investigation of field outbreaks of turkey haemorrhagic enteritis in Hungary. Acta Vet Hung 55: 135-49. [PubMed]
Pan, Q., J. Wang, Y. Gao, Q. Wang, H. Cui, C. Liu, X. Qi, Y. Zhang, Y. Wang, K. Li, L. Gao, A. Liu and X. Wang (2020). Identification of chicken CAR homology as a cellular receptor for the emerging highly pathogenic fowl adenovirus 4 via unique binding mechanism. Emerg Microbes Infect 9: 586-96. [PubMed]
Pantelic, R. S., L. J. Lockett, R. Rothnagel, B. Hankamer and G. W. Both (2008). Cryoelectron microscopy map of Atadenovirus reveals cross-genus structural differences from human adenovirus. J Virol 82: 7346-56. [PubMed]
Pantó, L., Podgorski, II, M. Jánoska, O. Márkó and B. Harrach (2015). Taxonomy proposal for Old World monkey adenoviruses: characterisation of several non-human, non-ape primate adenovirus lineages. Arch Virol 160: 3165-77. [PubMed]
Papp, T., B. Fledelius, V. Schmidt, G. L. Kaján and R. E. Marschang (2009). PCR-sequence characterization of new adenoviruses found in reptiles and the first successful isolation of a lizard adenovirus. Vet Microbiol 134: 233-40. [PubMed]
Park, Y. M., J. H. Kim, S. H. Gu, S. Y. Lee, M. G. Lee, Y. K. Kang, S. H. Kang, H. J. Kim and J. W. Song (2012). Full genome analysis of a novel adenovirus from the South Polar skua (Catharacta maccormicki) in Antarctica. Virology 422: 144-50. [PubMed]
Pei, Y., J. C. Corredor, P. J. Krell and É. Nagy (2019). Fowl adenovirus 9 ORF19, a lipase homolog, is nonessential for virus replication and is suitable for foreign gene expression. Virus Res 260: 129-34. [PubMed]
Pénzes, J. J., R. Menéndez-Conejero, G. N. Condezo, I. Ball, T. Papp, A. Doszpoly, A. Paradela, A. J. Pérez-Berná, M. López-Sanz, T. H. Nguyen, M. J. van Raaij, R. E. Marschang, B. Harrach, M. Benkő and C. San Martín (2014). Molecular characterization of a lizard adenovirus reveals the first atadenovirus with two fiber genes and the first adenovirus with either one short or three long fibers per penton. J Virol 88: 11304-14. [PubMed]
Pénzes, J. J., M. Söderlund-Venermo, M. Canuti, A. M. Eis-Hübinger, J. Hughes, S. F. Cotmore and B. Harrach (2020a). Reorganizing the family Parvoviridae: a revised taxonomy independent of the canonical approach based on host association. Arch Virol 165: 2133-46. [PubMed]
Pénzes, J. J., L. Szirovicza and B. Harrach (2020b). The complete genome sequence of bearded dragon adenovirus 1 harbors three genes encoding proteins of the C-type lectin-like domain superfamily. Infect Genet Evol 83: 104321. [PubMed]
Pérez-Berná, A. J., W. F. Mangel, W. J. McGrath, V. Graziano, J. Flint and C. San Martín (2014). Processing of the L1 52/55k protein by the adenovirus protease: a new substrate and new insights into virion maturation. J Virol 88: 1513-24. [PubMed]
Pfitzer, S., K. J. Boustead, J. H. Vorster, L. Du Plessis and L. J. La Grange (2019). Adenoviral hepatitis in two Nile crocodile (Crocodylus niloticus) hatchlings from South Africa. J S Afr Vet Assoc 90: e1-e4. [PubMed]
Phalen, D. N., J. Agius, F. F. Vaz, J. S. Eden, L. C. Setyo and S. Donahoe (2019). A survey of a mixed species aviary provides new insights into the pathogenicity, diversity, evolution, host range, and distribution of psittacine and passerine adenoviruses. Avian Pathol 48: 437-43. [PubMed]
Pied, N. and H. Wodrich (2019). Imaging the adenovirus infection cycle. FEBS Lett 593: 3419-48. [PubMed]
Pitcovski, J., M. Mualem, Z. Rei-Koren, S. Krispel, E. Shmueli, Y. Peretz, B. Gutter, G. E. Gallili, A. Michael and D. Goldberg (1998). The complete DNA sequence and genome organization of the avian adenovirus, hemorrhagic enteritis virus. Virology 249: 307-15. [PubMed]
Podgorski, II, L. Pantó, K. Földes, I. de Winter, M. Jánoska, E. Sós, B. Chenet, B. Harrach and M. Benkő (2018). Adenoviruses of the most ancient primate lineages support the theory on virus-host co-evolution. Acta Vet Hung 66: 474-87. [PubMed]
Podgorski, II, L. Pantó, T. Papp, B. Harrach and M. Benkő (2016). Genome analysis of four Old World monkey adenoviruses supports the proposed species classification of primate adenoviruses and reveals signs of possible homologous recombination. J Gen Virol 97: 1604-14. [PubMed]
Prado-Irwin, S. R., M. van de Schoot and A. J. Geneva (2018). Detection and phylogenetic analysis of adenoviruses occurring in a single anole species. PeerJ 6: e5521. [PubMed]
Rajan, A., E. Palm, F. Trulsson, S. Mundigl, M. Becker, B. D. Persson, L. Frängsmyr and A. Lenman (2021). Heparan sulfate is a cellular receptor for enteric human adenoviruses. Viruses 13: e298. [PubMed]
Ridpath, J. F., J. D. Neill, M. V. Palmer, F. V. Bauermann, S. M. Falkenberg and P. L. Wolff (2017). Isolation and characterization of a novel cervid adenovirus from white-tailed deer (Odocoileus virginianus) fawns in a captive herd. Virus Res 238: 198-203. [PubMed]
Rinder, M., A. Schmitz, N. Baas and R. Korbel (2020). Molecular identification of novel and genetically diverse adenoviruses in Passeriform birds. Virus Genes 56: 316-24. [PubMed]
Rivera, S., J. F. Wellehan, Jr., R. McManamon, C. J. Innis, M. M. Garner, B. L. Raphael, C. R. Gregory, K. S. Latimer, C. E. Rodriguez, O. Diaz-Figueroa, A. B. Marlar, A. Nyaoke, A. E. Gates, K. Gilbert, A. L. Childress, G. R. Risatti and S. Frasca, Jr. (2009). Systemic adenovirus infection in Sulawesi tortoises (Indotestudo forsteni) caused by a novel siadenovirus. J Vet Diagn Invest 21: 415-26. [PubMed]
Robinson, C. M., G. Singh, C. Henquell, M. P. Walsh, H. Peigue-Lafeuille, D. Seto, M. S. Jones, D. W. Dyer and J. Chodosh (2011). Computational analysis and identification of an emergent human adenovirus pathogen implicated in a respiratory fatality. Virology 409: 141-7. [PubMed]
Rogers, D. L., J. C. Ruiz, W. B. Baze, G. B. McClure, C. Smith, R. Urbanowski, T. Boston, J. H. Simmons, L. Williams, C. R. Abee and J. A. Vanchiere (2020). Epidemiological and molecular characterization of a novel adenovirus of squirrel monkeys after fatal infection during immunosuppression. Microb Genom 6: e395. [PubMed]
Roy, S., L. H. Vandenberghe, S. Kryazhimskiy, R. Grant, R. Calcedo, X. Yuan, M. Keough, A. Sandhu, Q. Wang, C. A. Medina-Jaszek, J. B. Plotkin and J. M. Wilson (2009). Isolation and characterization of adenoviruses persistently shed from the gastrointestinal tract of non-human primates. PLoS Pathog 5: e1000503. [PubMed]
Salzmann, E., E. Müller and R. E. Marschang (2021). Detection of testadenoviruses and atadenoviruses in tortoises and turtles in Europe J Zoo Wildl Med 52: 223-31. [PubMed]
San Martín, C. (2012). Latest insights on adenovirus structure and assembly. Viruses 4: 847-77. [PubMed]
San Martín, C. and M. J. van Raaij (2018). The so far farthest reaches of the double jelly roll capsid protein fold. Virol J 15: 181. [PubMed]
Sayedahmed, E. E., R. Kumari and S. K. Mittal (2019). Current use of adenovirus vectors and their production methods. Methods Mol Biol 1937: 155-75. [PubMed]
Schachner, A., G. Gonzalez, L. Endler, K. Ito and M. Hess (2019). Fowl adenovirus (FAdV) recombination with intertypic crossovers in genomes of FAdV-D and FAdV-E, displaying hybrid serological phenotypes. Viruses 11: e1094. [PubMed]
Schachner, A., M. Matos, B. Grafl and M. Hess (2018). Fowl adenovirus-induced diseases and strategies for their control - a review on the current global situation. Avian Pathol 47: 111-26. [PubMed]
Schumacher, V. L., C. J. Innis, M. M. Garner, G. R. Risatti, R. W. Nordhausen, K. Gilbert-Marcheterre, J. F. Wellehan, Jr., A. L. Childress and S. Frasca, Jr. (2012). Sulawesi tortoise adenovirus-1 in two impressed tortoises (Manouria impressa) and a Burmese star tortoise (Geochelone platynota). J Zoo Wildl Med 43: 501-10. [PubMed]
Singh, A. K., M. Berbís, M. Z. Ballmann, M. Kilcoyne, M. Menéndez, T. H. Nguyen, L. Joshi, F. J. Cañada, J. Jiménez-Barbero, M. Benkő, B. Harrach and M. J. van Raaij (2015). Structure and sialyllactose binding of the carboxy-terminal head domain of the fibre from a siadenovirus, turkey adenovirus 3. PLoS One 10: e0139339. [PubMed]
Singh, A. K., R. Menéndez-Conejero, C. San Martín and M. J. van Raaij (2014). Crystal structure of the fibre head domain of the atadenovirus snake adenovirus 1. PLoS One 9: e114373. [PubMed]
Singh, A. K., T. H. Nguyen, M. Z. Vidovszky, B. Harrach, M. Benkő, A. Kirwan, L. Joshi, M. Kilcoyne, M. Berbis, F. J. Cañada, J. Jiménez-Barbero, M. Menéndez, S. S. Wilson, B. A. Bromme, J. G. Smith and M. J. van Raaij (2018). Structure and N-acetylglucosamine binding of the distal domain of mouse adenovirus 2 fibre. J Gen Virol 99: 1494-508. [PubMed]
Smith, J. G., C. M. Wiethoff, P. L. Stewart and G. R. Nemerow (2010). Adenovirus. Curr Top Microbiol Immunol 343: 195-224. [PubMed]
Song, Y., Q. Wei, Y. Liu, H. Feng, Y. Chen, Y. Wang, Y. Bai, G. Xing, R. Deng and G. Zhang (2019). Unravelling the receptor binding property of egg drop syndrome virus (EDSV) from the crystal structure of EDSV fiber head. Int J Biol Macromol 139: 587-95. [PubMed]
Standorf, K., G. Cortés-Hinojosa, S. Venn-Watson, R. Rivera, L. L. Archer and J. F. X. Wellehan, Jr. (2018). Phylogentic analysis of the genome of an enteritis-associated bottlenose dolphin mastadenovirus supports a clade infecting the Cetartiodactyla. J Wildl Dis 54: 112-21. [PubMed]
Starrett, G. J., M. J. Tisza, N. L. Welch, A. K. Belford, A. Peretti, D. V. Pastrana and C. B. Buck (2021). Adintoviruses: a proposed animal-tropic family of midsize eukaryotic linear dsDNA (MELD) viruses. Virus Evol 7: veaa055. [PubMed]
Stasiak, A. C. and T. Stehle (2020). Human adenovirus binding to host cell receptors: a structural view. Med Microbiol Immunol 209: 325-33. [PubMed]
Strunze, S., M. F. Engelke, I. H. Wang, D. Puntener, K. Boucke, S. Schleich, M. Way, P. Schoenenberger, C. J. Burckhardt and U. F. Greber (2011). Kinesin-1-mediated capsid disassembly and disruption of the nuclear pore complex promote virus infection. Cell Host Microbe 10: 210-23. [PubMed]
Sutherland, M., S. Sarker, P. K. Vaz, A. R. Legione, J. M. Devlin, P. L. Macwhirter, P. L. Whiteley and S. R. Raidal (2019). Disease surveillance in wild Victorian cacatuids reveals co-infection with multiple agents and detection of novel avian viruses. Vet Microbiol 235: 257-64. [PubMed]
Szirovicza, L., P. López, R. Kopena, M. Benkő, J. Martín and J. J. Pénzes (2016). Random sampling of squamate reptiles in Spanish natural reserves reveals the presence of novel adenoviruses in lacertids (family Lacertidae) and worm lizards (Amphisbaenia). PLoS One 11: e0159016. [PubMed]
Tan, B., X. L. Yang, X. Y. Ge, C. Peng, H. Z. Liu, Y. Z. Zhang, L. B. Zhang and Z. L. Shi (2017). Novel bat adenoviruses with low G+C content shed new light on the evolution of adenoviruses. J Gen Virol 98: 739-48. [PubMed]
Tan, B., X. L. Yang, X. Y. Ge, C. Peng, Y. Z. Zhang, L. B. Zhang and Z. L. Shi (2016). Novel bat adenoviruses with an extremely large E3 gene. J Gen Virol 97: 1625-35. [PubMed]
Teske, L., D. Rubbenstroth, M. Meixner, K. Liere, H. Bartels and S. Rautenschlein (2017). Identification of a novel aviadenovirus, designated pigeon adenovirus 2 in domestic pigeons (Columba livia). Virus Res 227: 15-22. [PubMed]
Thomson, D., J. Meers and B. Harrach (2002). Molecular confirmation of an adenovirus in brushtail possums (Trichosurus vulpecula). Virus Res 83: 189-95. [PubMed]
Tischer, S., R. Geyeregger, J. Kwoczek, A. Heim, C. Figueiredo, R. Blasczyk, B. Maecker-Kolhoff and B. Eiz-Vesper (2016). Discovery of immunodominant T-cell epitopes reveals penton protein as a second immunodominant target in human adenovirus infection. J Transl Med 14: 286. [PubMed]
To, K. K., H. Tse, W. M. Chan, G. K. Choi, A. J. Zhang, S. Sridhar, S. C. Wong, J. F. Chan, A. S. Chan, P. C. Woo, S. K. Lau, J. Y. Lo, K. H. Chan, V. C. Cheng and K. Y. Yuen (2014). A novel psittacine adenovirus identified during an outbreak of avian chlamydiosis and human psittacosis: zoonosis associated with virus-bacterium coinfection in birds. PLoS Negl Trop Dis 8: e3318. [PubMed]
van Raaij, M. J., A. Mitraki, G. Lavigne and S. Cusack (1999). A triple beta-spiral in the adenovirus fibre shaft reveals a new structural motif for a fibrous protein. Nature 401: 935-8. [PubMed]
Vaz, F. F., T. F. Raso, J. E. Agius, T. Hunt, A. Leishman, J. S. Eden and D. N. Phalen (2020). Opportunistic sampling of wild native and invasive birds reveals a rich diversity of adenoviruses in Australia. Virus Evol 6: veaa024. [PubMed]
Verdugo, C., A. Pinto, N. Ariyama, M. Moroni and C. Hernandez (2019). Molecular identification of avian viruses in neotropic cormorants (Phalacrocorax brasilianus) in Chile J Wildl Dis 55: 105-12. [PubMed]
Vibin, J., A. Chamings, F. Collier, M. Klaassen, T. M. Nelson and S. Alexandersen (2018). Metagenomics detection and characterisation of viruses in faecal samples from Australian wild birds. Sci Rep 8: 8686. [PubMed]
Vibin, J., A. Chamings, M. Klaassen and S. Alexandersen (2020). Metagenomic characterisation of additional and novel avian viruses from Australian wild ducks. Sci Rep 10: 22284. [PubMed]
Vidovszky, M. Z., C. Kohl, S. Boldogh, T. Görföl, G. Wibbelt, A. Kurth and B. Harrach (2015). Random sampling of the Central European bat fauna reveals the existence of numerous hitherto unknown adenoviruses. Acta Vet Hung 63: 508-25. [PubMed]
Vidovszky, M. Z., L. Szeredi, A. Doszpoly, B. Harrach and Á. Hornyák (2019). Isolation and complete genome sequence analysis of a novel ovine adenovirus type representing a possible new mastadenovirus species. Arch Virol 164: 2205-7. [PubMed]
Vrati, S., D. E. Brookes, P. Strike, A. Khatri, D. B. Boyle and G. W. Both (1996). Unique genome arrangement of an ovine adenovirus: identification of new proteins and proteinase cleavage sites. Virology 220: 186-99. [PubMed]
Walker, P. J., S. G. Siddell, E. J. Lefkowitz, A. R. Mushegian, E. M. Adriaenssens, D. M. Dempsey, B. E. Dutilh, B. Harrach, R. L. Harrison, R. C. Hendrickson, S. Junglen, N. J. Knowles, A. M. Kropinski, M. Krupovic, J. H. Kuhn, M. Nibert, R. J. Orton, L. Rubino, S. Sabanadzovic, P. Simmonds, D. B. Smith, A. Varsani, F. M. Zerbini and A. J. Davison (2020). Changes to virus taxonomy and the Statutes ratified by the International Committee on Taxonomy of Viruses (2020). Arch Virol 165: 2737-48. [PubMed]
Walsh, M. P., A. Chintakuntlawar, C. M. Robinson, I. Madisch, B. Harrach, N. R. Hudson, D. Schnurr, A. Heim, J. Chodosh, D. Seto and M. S. Jones (2009). Evidence of molecular evolution driven by recombination events influencing tropism in a novel human adenovirus that causes epidemic keratoconjunctivitis. PLoS One 4: e5635. [PubMed]
Wang, H., Z. Y. Li, Y. Liu, J. Persson, I. Beyer, T. Möller, D. Koyuncu, M. R. Drescher, R. Strauss, X. B. Zhang, J. K. Wahl, 3rd, N. Urban, C. Drescher, A. Hemminki, P. Fender and A. Lieber (2011). Desmoglein 2 is a receptor for adenovirus serotypes 3, 7, 11 and 14. Nat Med 17: 96-104. [PubMed]
Wellehan, J. F., A. J. Johnson, B. Harrach, M. Benkö, A. P. Pessier, C. M. Johnson, M. M. Garner, A. Childress and E. R. Jacobson (2004). Detection and analysis of six lizard adenoviruses by consensus primer PCR provides further evidence of a reptilian origin for the atadenoviruses. J Virol 78: 13366-9. [PubMed]
Wellehan, J. F., Jr., C. B. Greenacre, G. J. Fleming, M. D. Stetter, A. L. Childress and S. P. Terrell (2009). Siadenovirus infection in two psittacine bird species. Avian Pathol 38: 413-7. [PubMed]
Wold, W. S. and L. R. Gooding (1991). Region E3 of adenovirus: a cassette of genes involved in host immunosurveillance and virus-cell interactions. Virology 184: 1-8. [PubMed]
Woods, L. W., B. A. Schumaker, P. A. Pesavento, B. M. Crossley and P. K. Swift (2018). Adenoviral hemorrhagic disease in California mule deer, 1990-2014. J Vet Diagn Invest 30: 530-7. [PubMed]
Wu, Z., L. Lu, J. Du, L. Yang, X. Ren, B. Liu, J. Jiang, J. Yang, J. Dong, L. Sun, Y. Zhu, Y. Li, D. Zheng, C. Zhang, H. Su, Y. Zheng, H. Zhou, G. Zhu, H. Li, A. Chmura, F. Yang, P. Daszak, J. Wang, Q. Liu and Q. Jin (2018). Comparative analysis of rodent and small mammal viromes to better understand the wildlife origin of emerging infectious diseases. Microbiome 6: 178. [PubMed]
Yang, N., J. McLelland, D. J. McLelland, J. Clarke, L. Woolford, P. Eden and D. N. Phalen (2019). Psittacid Adenovirus-2 infection in the critically endangered orange-bellied parrot (Neophema chrysogastor): A key threatening process or an example of a host-adapted virus? PLoS One 14: e0208674. [PubMed]
Yu, X., D. Veesler, M. G. Campbell, M. E. Barry, F. J. Asturias, M. A. Barry and V. S. Reddy (2017). Cryo-EM structure of human adenovirus D26 reveals the conservation of structural organization among human adenoviruses. Sci Adv 3: e1602670. [PubMed]
Zhang, X., Y. Zhong, Z. Zhou, Y. Liu, H. Zhang, F. Chen, W. Chen and Q. Xie (2016). Molecular characterization, phylogeny analysis and pathogenicity of a Muscovy duck adenovirus strain isolated in China in 2014. Virology 493: 12-21. [PubMed]
Zhao, H., M. Chen and U. Pettersson (2014). A new look at adenovirus splicing. Virology 456-457: 329-41. [PubMed]
Zsivanovits, P., D. J. Monks, N. A. Forbes, K. Ursu, R. Raue and M. Benkö (2006). Presumptive identification of a novel adenovirus in a Harris hawk (Parabuteo unicinctus), a Bengal eagle owl (Bubo bengalensis), and a Verreaux's eagle owl (Bubo lacteus). J Avian Med Surg 20: 105-12.