Newcastle Disease Virus |   75
            study of phenotypic mixing involving serotype and thermal stability.   contribution of IFN-alpha/beta signaling to the maturation of dendritic
            Virology 9, 649–670.                                  cells induced by double-stranded RNA or viral infection. Proc. Natl.
          Gravel, K.A., McGinnes, L.W., Reitter, J., and Morrison, T.G. (2011). The   Acad. Sci. U.S.A. 100, 10872–10877.
            transmembrane  domain  sequence  affects  the structure and  function   Horikami, S.M., Curran,  J., Kolakofsky, D., and  Moyer, S.A. (1992).
            of the Newcastle disease virus fusion protein. J. Virol. 85, 3486–3497.   Complexes of Sendai virus NP-P and P-L proteins are required for
            https://doi.org/10.1128/JVI.02308-10                  defective interfering particle genome replication in vitro. J. Virol. 66,
          Grdzelishvili, V.Z., Smallwood, S., Tower, D., Hall, R.L., Hunt, D.M., and   4901–4908.
            Moyer, S.A. (2006). Identification of a new region in the vesicular   Horikami, S.M., Smallwood, S., and Moyer, S.A. (1996). The Sendai virus
            stomatitis virus L polymerase protein which is essential for mRNA cap   V protein interacts with the NP protein to regulate viral genome RNA
            methylation. Virology 350, 394–405.                   replication. Virology 222, 383–390.
          Grieves, J.L., Yin, Z., Garcia-Sastre, A., Mena, I., Peeples, M.E., Risman, H.P.,   Houben, K., Marion, D., Tarbouriech, N., Ruigrok, R.W., and Blanchard, L.
            Federman, H., Sandoval, M.J., Durbin, R.K., and Durbin, J.E. (2018).   (2007). Interaction of the C-terminal domains of Sendai virus N and P
            A viral-vectored RSV vaccine induces long-lived humoral immunity in   proteins: comparison of polymerase-nucleocapsid interactions within
            cotton rats. Vaccine 36, 3842–3852.                   the paramyxovirus family. J. Virol. 81, 6807–6816.
          Haas, C., Ertel, C., Gerhards, R., and Schirrmacher, V. (1998). Introduction   Hu, H., Roth, J.P., Estevez, C.N., Zsak, L., Liu, B., and Yu, Q. (2011).
            of  adhesive  and  costimulatory  immune  functions  into  tumor  cells  by   Generation and evaluation of a recombinant Newcastle disease virus
            infection with Newcastle Disease Virus. Int. J. Oncol. 13, 1105–1115.  expressing the glycoprotein (G) of avian metapneumovirus subgroup
          Habchi, J., and Longhi, S. (2015). Structural disorder within paramyxoviral   C as a bivalent vaccine in turkeys. Vaccine 29, 8624–8633. https://doi.
            nucleoproteins  and  phosphoproteins  in  their  free  and  bound  forms:   org/10.1016/j.vaccine.2011.09.007
            from predictions to experimental assessment. Int. J. Mol. Sci. 16, 15688–  Hu, H., Roth, J.P., Zsak, L., and Yu, Q. (2017). Engineered Newcastle disease
            15726. https://doi.org/10.3390/ijms160715688          virus expressing the F and G proteins of AMPV-C confers protection
          Hamaguchi, M., Yoshida, T., Nishikawa, K., Naruse, H., and Nagai, Y.   against challenges in turkeys. Sci. Rep. 7, 4025. https://doi.org/10.1038/
            (1983). Transcriptive complex of Newcastle disease virus. I. Both L and   s41598-017-04267-7
            P proteins are required to constitute an active complex. Virology 128,   Hu, H., Roth, J. P., Yu, Q. (2018) Generation of a recombinant Newcastle
            105–117.                                              disease virus expressing two foreign genes for use as a multivalent vaccine
          Hamaguchi, M., Nishikawa, K., Toyoda, T., Yoshida, T., Hanaichi, T., and   and gene therapy vector, Vaccine 36, 4846–4850.
            Nagai, Y. (1985). Transcriptive complex of Newcastle disease virus.   Hu, S., Ma, H., Wu, Y., Liu, W., Wang, X., Liu, Y., and Liu, X. (2009). A vaccine
            II. Structural and functional assembly associated with the cytoskeletal   candidate of attenuated genotype VII Newcastle disease virus generated
            framework. Virology 147, 295–308.                     by reverse genetics. Vaccine  27, 904–910. https://doi.org/10.1016/j.
          Han, G.Z., and Worobey, M. (2011). Homologous recombination in negative   vaccine.2008.11.091
            sense RNA viruses. Viruses  3, 1358–1373. https://doi.org/10.3390/  Hu, Z., Hu, J., Hu, S., Liu, X., Wang, X., Zhu, J., and Liu, X. (2012). Strong
            v3081358                                              innate immune response and cell death in chicken splenocytes infected
          Han, G.Z., He, C.Q., Ding, N.Z., and Ma, L.Y. (2008). Identification of a   with genotype VIId Newcastle disease virus. Virol. J. 9, 208. https://doi.
            natural multi-recombinant of Newcastle disease virus. Virology 371,   org/10.1186/1743-422X-9-208
            54–60.                                              Hu, Z., Hu, S., Meng, C., Wang, X., Zhu, J., and Liu, X. (2011). Generation
          Hanada, K., Suzuki, Y., and Gojobori, T. (2004). A large variation in the rates   of a genotype VII Newcastle disease virus vaccine candidate with high
            of synonymous substitution for RNA viruses and its relationship to a   yield in embryonated chicken eggs. Avian Dis. 55, 391–397. https://doi.
            diversity of viral infection and transmission modes. Mol. Biol. Evol. 21,   org/10.1637/9633-122410-Reg.1
            1074–1080. https://doi.org/10.1093/molbev/msh109    Huang, Y., Wan, H.Q., Liu, H.Q., Wu, Y.T., and Liu, X.F. (2004). Genomic
          Hanson, R. (1972). World wide spread of viscerotropic Newcastle disease.   sequence of an isolate of Newcastle disease virus isolated from an
            Proceedings of the 76th Meeting of the US Animal Health Association   outbreak in geese: a novel six nucleotide insertion in the non-coding
            (US Animal Health Association, St. Joseph, MO), pp. 276–279.   region of the nucleoprotein gene. Brief Report. Arch. Virol. 149, 1445–
          Hanson, R.P., and Brandly, C.A. (1955). Identification of vaccine strains of   1457. https://doi.org/10.1007/s00705-004-0297-8
            Newcastle disease virus. Science 122, 156–157.      Huang, Z., Krishnamurthy, S., Panda, A., and Samal, S.K. (2001). High-level
          Hanson, R.P., Spalatin, J., and Jacobson, G.S. (1973). The viscerotropic   expression of a foreign gene from the most 3’-proximal locus of a
            pathotype of Newcastle disease virus. Avian Dis. 17, 354–361.  recombinant Newcastle disease virus. J. Gen. Virol. 82, 1729–1736.
          Harrison, L., Brown, C., Afonso, C., Zhang, J., and Susta, L. (2011). Early   Huang, Z., Krishnamurthy, S., Panda, A., and Samal, S.K. (2003). Newcastle
            occurrence of apoptosis in lymphoid tissues from chickens infected with   disease virus V protein is associated with viral pathogenesis and functions
            strains of Newcastle disease virus of varying virulence. J. Comp. Pathol.   as an alpha interferon antagonist. J. Virol. 77, 8676–8685.
            145, 327–335. https://doi.org/10.1016/j.jcpa.2011.03.005  Huang, Z., Panda, A., Elankumaran, S., Govindarajan, D., Rockemann, D.D.,
          Heckert,  R.A.,  Collins,  M.S.,  Manvell,  R.J.,  Strong,  I.,  Pearson,  J.E.,  and   and Samal, S.K. (2004a). The hemagglutinin-neuraminidase protein of
            Alexander, D.J. (1996). Comparison of Newcastle disease viruses   Newcastle disease virus determines tropism and virulence. J. Virol. 78,
            isolated from cormorants in Canada and the USA in 1975, 1990 and   4176–4184.
            1992. Can. J. Vet. Res. 60, 50–54.                  Huang, Z., Elankumaran, S., Yunus, A.S., and Samal, S.K. (2004b). A
          Heller, E.D., Nathan, D.B., and Perek, M. (1977). The transfer of Newcastle   recombinant  Newcastle  disease  virus  (NDV)  expressing  VP2 protein
            serum antibody from the laying hen to the egg and the chick. Res. Vet.   of infectious bursal disease virus (IBDV) protects against NDV
            Sci. 22, 376–379.                                     and IBDV. J. Virol. 78, 10054–10063. https://doi.org/10.1128/
          Hengel, H., Koszinowski, U.H., and Conzelmann, K.K. (2005). Viruses   JVI.78.18.10054-10063.2004.
            know it all: new insights into IFN networks. Trends Immunol.  26,   International Committee on Taxonomy of Viruses (ICTV) (2019).
            396–401.                                              Paramyxoviridae  Available  online:  https://talk.ictvonline.org/
          Higgins, D.A. (1971). Nine disease outbreaks associated with myxoviruses   ictv-reports/ictv_9th_report/negative-sense-rna-viruses-2011/w/
            among ducks in Hong Kong. Trop. Anim. Health Prod. 3, 232–240.  negrna_viruses/199/paramyxoviridae. Accessed 25 March 2019.
          Higgins, D.A., and Shortridge, K.F. (1988). Newcastle disease in tropical   Iorio, R.M., Field, G.M., Sauvron, J.M., Mirza, A.M., Deng, R., Mahon,
            and developing countries. In Newcastle Disease, D.J. Alexander, ed.   P.J., and Langedijk, J.P. (2001). Structural and functional relationship
            (Kluwer Academic Publishers, Boston, MA), pp. 273–302.  between the receptor recognition and neuraminidase activities of the
          Holmes, H.C. (1979). Resistance of the respiratory tract of the chicken to   Newcastle disease virus hemagglutinin-neuraminidase protein: receptor
            Newcastle disease virus infection following vaccination: the effect of   recognition is dependent on neuraminidase activity. J. Virol. 75, 1918–
            passively acquired antibody on its development. J. Comp. Pathol.  89,   1927. https://doi.org/10.1128/JVI.75.4.1918-1927.2001
            11–19.                                              Irie, T., Nagata, N., Yoshida, T., and Sakaguchi, T. (2008). Paramyxovirus
          Honda, K., Sakaguchi, S., Nakajima, C., Watanabe, A., Yanai, H., Matsumoto,   Sendai virus C proteins are essential for maintenance of negative-sense
            M., Ohteki, T., Kaisho, T., Takaoka, A., Akira, S., et al. (2003). Selective