Avian Adenovirus |   309
          Baxendale, W., Lutticken, D., Hein, R., and McPherson, I. (1980). The   Cheng, G., Zhong, J., Chung, J., and Chisari, F.V. (2007). Double-stranded
            results of field trials conducted with an inactivated vaccine against the   DNA and double-stranded RNA induce a common antiviral signaling
            egg drop syndrome 76 (EDS 76). Avian Pathol. 9, 77–91.  pathway in human cells. Proc. Natl. Acad. Sci. U.S.A. 104, 9035–9040.
          Beach, N.M., Duncan, R.B., Larsen, C.T., Meng, X.-J., Sriranganathan, N.,   Cherenova, L.V., Logunov, D.Y., Shashkova, E.V., Shmarov, M.M.,
            William, F., and Correspondence, P. (2009a). Comparison of 12 turkey   Verkhovskaya, L.V., Neugodova, G.L., Kazansky, D.B., Doronin, K.K.,
            hemorrhagic enteritis virus isolates allows prediction of genetic factors   and  Naroditsky,  B.S. (2004).  Recombinant avian  adenovirus  CELO
            affecting virulence. J. Gen. Virol. 90, 1978–1985.    expressing the human interleukin-2: characterization in vitro, in ovo
          Beach, N.M., Duncan, R.B., Larsen, C.T., Meng, X.J., Sriranganathan, N., and   and in vivo. Virus Res.  100, 257–261. https://doi.org/10.1016/j.
            Pierson, F.W. (2009b). Persistent infection of turkeys with an avirulent   virusres.2003.11.018
            strain of turkey hemorrhagic enteritis virus. Avian Dis.  53, 370–375.   Chiocca, S., Kurzbauer, R., Schaffner, G., Baker, A., Mautner, V., and Cotten,
            https://doi.org/10.1637/8575-010509-Reg.1             M. (1996). The complete DNA sequence and genomic organization of
          Berk, A.J. (2013). Adenoviridae. In Fields Virology, D.M. Knipe, and   the avian adenovirus CELO. J. Virol. 70, 2939–2949.
            P.M. Howley, eds (Lippincott Williams & Wilkins, a Walters Kluwer,   Chiocca,  S.,  Baker,  A.,  and  Cotten,  M.  (1997).  Identification  of  a  novel
            Philadelphia, PA), pp. 1704–1731.                     antiapoptotic protein, GAM-1, encoded by the CELO adenovirus. J.
          Biđin, Z., Lojkić, I., Mikec, M., and Pokrić, B. (2007). Naturally occurring   Virol. 71, 3168–3177.
            egg drop syndrome infection in turkeys. Acta Vet. BRNO 76, 415–421.  Choi, K.S., Kye, S.J., Kim, J.Y., Jeon, W.J., Lee, E.K., Park, K.Y., and Sung, H.W.
          Biet, F., Locht, C., and Kremer, L. (2002). Immunoregulatory functions of   (2012). Epidemiological investigation of outbreaks of fowl adenovirus
            interleukin 18 and its role in defense against bacterial pathogens. J. Mol.   infection in commercial chickens in Korea. Poult. Sci. 91, 2502–2506.
            Med. 80, 147–162. https://doi.org/10.1007/s00109-001-0307-1  Colombo, R., Boggio, R., Seiser, C., Draetta, G.F., and Chiocca, S. (2002).
          Bishop, S.C., and Cardozo, P. (1996). Egg drop syndrome ‘76 in Bolivia.   The  adenovirus  protein  Gam1  interferes  with  sumoylation  of  histone
            Trop. Anim. Health Prod. 28, 199–206.                 deacetylase 1. EMBO Rep.  3, 1062–1068. https://doi.org/10.1093/
          Both, G.W. (2004). Ovine atadenovirus: a review of its biology, biosafety   embo-reports/kvf213
            profile and application as a gene delivery vector. Immunol. Cell Biol. 82,   Cook, J.K. (1983). Egg drop syndrome 1976 (EDS-76) virus infection in
            189–195. https://doi.org/10.1046/j.0818-9641.2004.01223.x  inadequately vaccinated chickens. Avian Pathol. 12, 9–16.
          Brash, M. (2012). Ontario Poultry Disease Update 2011/2012 (Western   Cook, J.K., and Darbyshire, J.H. (1981). Longitudinal studies on the egg
            Poultry Conference, Banff, AB).                       drop syndrome 1976 (eds-76) in the fowl following experimental
          Brash, M.L., Swinton, J.N., Weisz, A., and Ojkić, D. (2009). Isolation and   infection at 1-day-old. Avian Pathol. 10, 449–459.
            identification of duck adenovirus 1 in ducklings with proliferative   Corredor, J.C., and Nagy, É. (2010a). A region at the left end of the fowl
            tracheitis in Ontario. Avian Dis.  53, 317–320. https://doi.  adenovirus 9 genome that is non-essential in vitro has consequences in
            org/10.1637/8559-121508-Case.1                        vivo. J. Gen. Virol. 91, 51–58.
          Brestovitsky, A., Nebenzahl-Sharon, K., Kechker, P., Sharf, R., and   Corredor, J.C., and Nagy, E. (2010b). The non-essential left end region of
            Kleinberger, T. (2016). The adenovirus E4orf4 protein provides a novel   the fowl adenovirus 9 genome is suitable for foreign gene insertion/
            mechanism for inhibition of the DNA damage response. PLOS Pathog.   replacement. Virus Res.  149, 167–174. https://doi.org/10.1016/j.
            12, e1005420. https://doi.org/10.1371/journal.ppat.1005420  virusres.2010.01.014
          Brownlie, R., Zhu, J., Allan, B., Mutwiri, G.K., Babiuk, L.A., Potter, A., and   Corredor, J.C., and Nagy, E. (2011). Antibody response and virus
            Griebel, P. (2009). Chicken TLR21 acts as a functional homologue to   shedding of chickens inoculated with left end deleted fowl adenovirus
            mammalian TLR9  in the  recognition  of CpG  oligodeoxynucleotides.   9-based recombinant viruses. Avian Dis.  55, 443–446. https://doi.
            Mol.  Immunol.  46,  3163–3170.  https://doi.org/10.1016/j.  org/10.1637/9710-031311-Reg.1
            molimm.2009.06.002                                  Corredor, J.C., Krell, P.J., and Nagy, E. (2006). Sequence analysis of the left
          Brugh, M., Beard, C.W., and Villegas, P. (1984). Experimental infection of   end of fowl adenovirus genomes. Virus Genes 33, 95–106. https://doi.
            laying chickens with adenovirus 127 and with a related virus isolated   org/10.1007/s11262-005-0031-y
            from ducks. Avian Dis. 28, 168–178.                 Corredor, J.C., Garceac, A., Krell, P.J., and Nagy, E. (2008). Sequence
          Cao, J.X., Krell, P.J., and Nagy, E. (1998). Sequence and transcriptional   comparison of the right end of fowl adenovirus genomes. Virus Genes
            analysis of terminal regions of the fowl adenovirus type 8 genome. J. Gen.   36, 331–344. https://doi.org/10.1007/s11262-007-0194-9
            Virol. 79, 2507–2516. https://doi.org/10.1099/0022-1317-79-10-2507  Corredor, J.C., Pei, Y., and Nagy, É. (2017). Fowl adenovirus-based
          Cardona, C.J., Reed, W.M., Witter, R.L., and Silva, R.F. (1999). Protection   vaccine platform. Methods Mol. Biol.  1581, 29–54. https://doi.
            of turkeys from hemorrhagic enteritis with a recombinant fowl poxvirus   org/10.1007/978-1-4939-6869-5_3
            expressing the native hexon of hemorrhagic enteritis virus. Avian Dis. 43,   Cowen, B.S. (1988). Chicken embryo propagation of type I avian
            234–244.                                              adenoviruses. Avian Dis. 32, 347–352.
          Cardona, C.J., Nazerian, K., Reed, W.M., and Silva, R.F. (2001).   Dahiya, S., Srivastava, R.N., Hess, M., and Gulati, B.R. (2002). Fowl
            Characterization of a recombinant fowlpox virus expressing the native   adenovirus serotype 4 associated with outbreaks of infectious
            hexon of hemorrhagic enteritis virus. Virus Genes 22, 353–361.  hydropericardium in Haryana, India. Avian Dis. 46, 230–233. https://
          Carlson, H.C., al-Sheikhly, F., Pettit, J.R., and Seawright, G.L. (1974). Virus   doi.org/10.1637/0005-2086(2002)046[0230:FASAWO]2.0.CO;2
            particles in spleens and intestines of turkeys with hemorrhagic enteritis.   Dar, A., Gomis, S., Shirley, I., Mutwiri, G., Brownlie, R., Potter, A.,
            Avian Dis. 18, 67–73.                                 Gerdts, V., and Tikoo, S.K. (2012). Pathotypic and molecular
          Cha, S.Y., Kang, M., Moon, O.K., Park, C.K., and Jang, H.K. (2013).   characterization of a fowl adenovirus associated with inclusion body
            Respiratory disease due to current egg drop syndrome virus in Pekin   hepatitis in Saskatchewan chickens. Avian Dis. 56, 73–81. https://doi.
            ducks. Vet. Microbiol.  165, 305–311. https://doi.org/10.1016/j.  org/10.1637/9764-041911-Reg.1
            vetmic.2013.04.004                                  Das, B.B., and Pradhan, H.K. (1992). Outbreaks of egg drop syndrome due
          Chang, H.M., Paulson, M., Holko, M., Rice, C.M., Williams, B.R., Marié,   to EDS-76 virus in quail (Coturnix coturnix japonica). Vet. Rec. 131,
            I., and Levy, D.E. (2004). Induction of interferon-stimulated gene   264–265.
            expression and antiviral responses require protein deacetylase activity.   Davison, A.J., and Harrach, B. (2011). Siadenovirus. in the springer index
            Proc. Natl. Acad. Sci. U.S.A. 101, 9578–9583. https://doi.org/10.1073/  of viruses, C. Tidona, and G. Darai, eds (Springer New York, New York,
            pnas.0400567101                                       NY), pp. 49–56.
          Changjing,  L., Haiying, L., Dongdong, W., Jingjing, W., Youming,  W.,   Davison, A.J., Benko, M., and Harrach, B. (2003). Genetic content and
            Shouchun, W., Jida, L., Ping, L., Jianlin, W., Shouzhen, X., et al. (2016).   evolution of adenoviruses. J. Gen. Virol. 84, 2895–2908.
            Characterization of fowl adenoviruses isolated between 2007 and 2014   Deng, L., Sharif, S., and Nagy, E. (2013). Oral inoculation of chickens
            in China. Vet. Microbiol. 197, 62–67.                 with a candidate fowl adenovirus 9 vector. Clin. Vaccine Immunol. 20,
          Cheema, A.H., Ahmad, J., and Afzal, M. (1989). An adenovirus infection of   1189–1196. https://doi.org/10.1128/CVI.00187-13
            poultry in Pakistan. Rev. Sci. Tech. Off. Int. Epiz. 8, 789–795.