Avian Pox Virus |   375
          Hruby, D.E., and Byrd, C.M. (2006). Less is more: poxvirus proteolysis. Two   from backyard chickens in India. Avian Dis. 59, 249–254. https://doi.
            proteinases cleave each of the three major poxvirus core proteins, helping   org/10.1637/11031-020415-Reg.
            to regulate the assembly of infectious viral particles. Microbe 1, 70–75.  Sarma, G., Kersting, B.A., and Spina, G. (2015). Vaccination of 1-day-old
          Jarmin, S., Manvell, R., Gough, R.E., Laidlaw, S.M., and Skinner, M.A.   turkey poults with fowlpox vaccine by subcutaneous route. Avian Dis. 59,
            (2006).  Avipoxvirus  phylogenetics:  identification  of  a PCR  length   419–421. https://doi.org/10.1637/11032-020515-ResNote.1.
            polymorphism that discriminates between the two major clades. J. Gen.   Schnitzlein, W.M., Ghildyal, N., and Tripathy, D.N. (1988). Genomic and
            Virol. 87, 2191–2201.                                 antigenic characterization of avipoxviruses. Virus Res. 10, 65–75.
          Jarvi, S.I., Triglia, D., Giannoulis, A., Farias, M., Bianchi, K., and Atkinson,   Shivaprasad, H.L.,  Kim,  T.J., Woolcock,  P.R.,  and Tripathy,  D.N.  (2002).
            C.T. (2008).  Diversity, origins and virulence of Avipoxviruses in   Genetic and antigenic characterization of a poxvirus isolate from
            Hawaiian Forest Birds. Conserv. Genet. 9, 339–348.    ostriches. Avian  Dis.  46, 429–436.  https://doi.org/10.1637/0005-
          Kim, T.J., and Tripathy, D.N. (2001). Reticuloendotheliosis virus integration   2086(2002)046[0429:GAACOA]2.0.CO;2.
            in the fowl poxvirus genome: not a recent event. Avian Dis. 45, 663–669.  Shivaprasad, H.L., Kim, T., Tripathy, D., Woolcock, P.R., and Uzal, F. (2009).
          Kim, T.J., and Tripathy, D.N. (2006a). Antigenic and genetic characterization   Unusual pathology of canary poxvirus infection associated with high
            of an  avian pox  virus  isolated from  an endangered Hawaiian  goose   mortality in young and adult breeder canaries (Serinus canaria). Avian
            (Branta sandvicensis). Avian Dis. 50, 15–21.          Pathol. 38, 311–316. https://doi.org/10.1080/03079450903061643.
          Kim, T.J., and Tripathy, D.N. (2006b). Evaluation of pathogenicity of avian   Singh, P., Kim, T.J., and Tripathy, D.N. (2000). Re-emerging fowlpox:
            poxvirus  isolates  from  endangered  Hawaiian  wild  birds  in  chickens.   evaluation of isolates from vaccinated flocks. Avian Pathol. 29, 449–455.
            Avian Dis. 50, 288–291. https://doi.org/10.1637/7459-102405R.1.  https://doi.org/10.1080/030794500750047207.
          Kim, T.J., Schnitzlein, W.M., McAloose, D., Pessier, A.P., and Tripathy, D.N.   Singh,  P.,  Kim,  T.J.,  and  Tripathy,  D.N.  (2003).  Identification  and
            (2003). Characterization of an avianpox virus isolated from an Andean   characterization of fowlpox virus strains using monoclonal
            condor (Vultur gryphus). Vet. Microbiol. 96, 237–246.  antibodies. J. Vet. Diagn. Invest.  15, 50–54.  https://doi.
          Koo, B.S., Lee, H.R., Jeon, E.O., Jang, H.S., Han, M.S., Min, K.C., Lee,   org/10.1177/104063870301500111.
            S.B., Kim, J.J., and Mo, I.P. (2013). An outbreak of lymphomas in a   Srinivasan, V., and Tripathy, D.N. (2005). The DNA repair enzyme,
            layer chicken flock  previously infected with fowlpox virus containing   CPD-photolyase restores the infectivity of UV-damaged fowlpox virus
            integrated reticuloendotheliosis virus. Avian Dis. 57, 812–817. https://  isolated from infected scabs of chickens. Vet. Microbiol. 108, 215–223.
            doi.org/10.1637/10551-041113-Case.R1.               Srinivasan, V., Schnitzlein, W.M., and Tripathy, D.N. (2001). Fowl pox virus
          Laidlaw, S.M., and Skinner, M.A. (2004). Comparison of the genome   encodes a novel DNA repair enzyme, CPD-photolyase, that restores
            sequence of FP9, an attenuated, tissue culture-adapted European strain   infectivity of UV light-damaged virus. J. Virol. 75, 1681–1688.
            of Fowlpox virus, with those of virulent American and European viruses.   Srinivasan, V., Schnitzlein, W.M., and Tripathy, D.N. (2006). Genetic
            J. Gen. Virol. 85, 305–322.                           manipulation of two FPV late transcriptional regulatory elements
          Mete, A., Borst, G.H., and Dorrestein, G.M. (2001). Atypical poxvirus   influences their ability to direct expression of foreign genes. Virus Res.
            lesions in two Galapagos doves (Nesopelia g. galapagoensis). Avian Pathol.   116, 85–90.
            30, 159–162. https://doi.org/10.1080/03079450120044560.  Sun, H.L., Wang, Y.F., Tong, G.Z., Zhang, P.J., Miao, D.Y., Zhi, H.D., Wang,
          Minbay, A., and Kreier, J.P. (1973). An experimental  study of the   M., and Wang, M. (2008). Protection of chickens from Newcastle disease
            pathogenesis of fowlpox infection in chickens. Avian Dis. 17, 532–539.  and infectious laryngotracheitis with a recombinant fowlpox virus
          Moore, K.M., Davis, J.R., Sato, T., and Yasuda, A. (2000).   co-expressing the F, HN genes of Newcastle disease virus and gB gene of
            Reticuloendotheliosis virus (REV) long terminal repeats incorporated   infectious laryngotracheitis virus. Avian Dis. 52, 111–117. https://doi.
            in the genomes of commercial FPV vaccines and pigeon pox viruses   org/10.1637/7998-041807-Reg.
            without indication of the presence of infectious REV. Avian Dis.  44,   Tadese, T., and Reed, W.M. (2003). Use of restriction fragment length
            827–841.                                              polymorphism, immunoblotting, and polymerase chain reaction in the
          Moss, B. (2006). Poxvirus entry and membrane fusion. Virology 344, 48–54.  differentiation of avian poxviruses. J. Vet. Diagn. Invest. 15, 141–150.
          Moss, B. (2013). Poxvirus DNA replication. Cold Spring Harb. Perspect.   https://doi.org/10.1177/104063870301500208.
            Biol. 5, a010199. https://doi.org/10.1101/cshperspect.a010199.  Taylor, J., Weinberg, R., Languet, B., Desmettre, P., and Paoletti, E. (1988).
          Niemeyer, C., Favero, C.M., Kolesnikovas, C.K., Bhering, R.C., Brandão, P.,   Recombinant FPV inducing protective immunity in nonavian species.
            and Catão-Dias, J.L. (2013). Two different avipoxviruses associated with   Vaccine 6, 497–503.
            pox disease in Magellanic penguins (Spheniscus magellanicus) along the   Thomas, M.B., Watson, E.L., and Valverde, P. (2003). Mixed infections and
            Brazilian coast. Avian Pathol. 42, 546–551. https://doi.org/10.1080/03  insect-pathogen interactions. Ecol. Lett. 6, 183–188.
            079457.2013.849794.                                 Tripathy, D.N., and Hanson, L.E. (1976). A smear technique for staining
          Niewiadomska, A.M., and Gifford, R.J. (2013). The extraordinary   elementary bodies of fowlpox. Avian Dis. 20, 609–610.
            evolutionary history of the reticuloendotheliosis viruses. PLOS Biol. 11,   Tripathy, D.N., and Reed, W.M. (2013). Pox. in Diseases of Poultry, 13th
            e1001642. https://doi.org/10.1371/journal.pbio.1001642.  edn., Swayne, D.E., Glisson, J.R., McDougald, L.R., Nolan, L.K., Suarez,
          Offerman, K., Carulei, O., Gous, T.A., Doughas, N., and Williamson, A.L.   D.L., and Nair, V. eds. (Wiley-Blackwell), pp. 333–349.
            (2013).  Phylogenetic and histological variation in avipoxviruses isolated   Tripathy, D.N., and Reed, W.M. (2016). Pox. In A Laboratory Manual
            in South Africa. J. Gen. Virol. 94, 2338–2351.        for Isolation, Identification and Characterization of Avian Pathogens,
          Offerman, K., Carulei, O., van der Walt, A.P., Douglass, N., and Williamson,   6th edn, Williams, S.E., Dufour-Zavala, L., Jackwood, M.W., Lee,
            A.L. (2014). The complete genome sequences of poxviruses isolated   M.D., Lupiani, B., Reed, W.M., Spackman, E., and Woolcock, P.R., eds
            from a penguin and a pigeon in South Africa and comparison to other   (American Association of Avian Pathologists, Jacksonville, FL), pp.
            sequenced  avipoxviruses.  BMC  Genomics  15,  463.  https://doi.  291–295.
            org/10.1186/1471-2164-15-463.                       Tripathy, D.N., Hanson, L.E., and Killinger, A.H. (1974). Atypical fowlpox
          Ogasawara, F., Yamamoto, Y., Sato, Y., Fukunari, K., Murata, K., Yaegashi,   in a poultry farm in Illinois. Avian Dis. 18, 84–90.
            G., Goto, M., and Murakami, R. (2016). Concurrent Fowlpox and   Tripathy, D.N., Sells, D.M., and Hanson, L.E. (1975). Natural pox and herpes
            Candidiasis Diseases in Backyard Chickens with Unusual Pox Lesions   as a dual virus infection in chickens. Avian Dis. 19, 75–81.
            in  the  Bursa of  Fabricius. Avian Dis.  60,  705–708.  https://doi.  Tripathy, D.N., Singh, P., and Schnitzlein, W.M. (1998). Fowlpox: a
            org/10.1637/11397-022416-Case.1.                      re-emerging disease in chickens. Proceedings of the 49th North Central
          Rampin, T., Pisoni, G., Manarolla, G., Gallazzi, D., and Sironi, G. (2007).   Avian Disease  Conference and Symposium  on Enteric and Emerging
            Epornitic of avian pox in common buzzards (Buteo buteo): virus   Diseases (Indianapolis, IN), pp. 36–37.
            isolation and molecular biological characterization. Avian Pathol.  36,   Tripathy, D.N., Schnitzlein, W.M., Morris, P.J., Janssen, D.L., Zuba, J.K.,
            161–165.                                              Massey, G., and Atkinson, C.T. (2000). Characterization of poxviruses
          Roy, B., Joardar, S.N., Samanta, I., Das, P.K., Alam, S.S., and Nandi, S. (2015).   from forest birds in Hawaii. J. Wildl. Dis.  36, 225–230.  https://doi.
            Detection of T- and B-cell target antigens of fowlpox virus isolated   org/10.7589/0090-3558-36.2.225.