226  |  Zheng
            disease virus infection and triggers MDA5-related innate immunity. Arch.   Luque, D., Saugar, I., Rodríguez, J.F., Verdaguer, N., Garriga, D., Martín,
            Virol. 159, 1671–1686. https://doi.org/10.1007/s00705-014-1983-9.  C.S., Velázquez-Muriel, J.A., Trus, B.L., Carrascosa, J.L., and Castón, J.R.
          Lejal, N., Da, C.B., Huet, J.C., and Delmas, B. (2000). Role of Ser-652 and   (2007). Infectious bursal disease virus capsid assembly and maturation
            Lys-692 in the protease activity of infectious bursal disease virus VP4 and   by structural rearrangements of a transient molecular switch. J. Virol. 81,
            identification of its substrate cleavage sites. J. Gen. Virol. 81, 983–992.  6869–6878.
          Li, K., Gao, H., Gao, L., Qi, X., Gao, Y., Qin, L., Wang, Y., and Wang, X.   Lynn, D.J., Higgs, R., Lloyd, A.T., O’Farrelly, C., Hervé-Grépinet, V., Nys,
            (2013). Adjuvant effects of interleukin-18 in DNA vaccination against   Y., Brinkman, F.S., Yu, P.L., Soulier, A., Kaiser, P., et al. (2007). Avian
            infectious  bursal  disease  virus  in  chickens.  Vaccine  31,  1799–1805.   beta-defensin nomenclature: a community proposed update. Immunol.
            https://doi.org/10.1016/j.vaccine.2013.01.056.         Lett. 110, 86–89.
          Li, K., Liu, Y., Liu, C., Gao, L., Zhang, Y., Cui, H., Gao, Y., Qi, X., Zhong,   Macreadie,  I.G.,  Vaughan,  P.R.,  Chapman,  A.J.,  McKern,  N.M.,  Jagadish,
            L., and Wang, X. (2016). Recombinant Marek’s disease virus type 1   M.N., Heine, H.G., Ward, C.W., Fahey, K.J., and Azad, A.A. (1990).
            provides  full  protection  against  very  virulent  Marek’s  and  infectious   Passive protection against infectious bursal disease virus by viral VP2
            bursal disease viruses in chickens. Sci. Rep. 6, 39263.  expressed in yeast. Vaccine 8, 549–552.
          Li, Z., Wang, Y., Xue, Y., Li, X., Cao, H., and Zheng, S.J. (2012). Critical   Mahgoub, H.A., Bailey, M., and Kaiser, P. (2012). An overview of infectious
            role for voltage-dependent anion channel 2 in infectious bursal disease   bursal disease. Arch. Virol. 157, 2047–2057. https://doi.org/10.1007/
            virus-induced apoptosis in host cells via interaction with VP5. J. Virol.   s00705-012-1377-9.
            86, 1328–1338. https://doi.org/10.1128/JVI.06104-11.  Maraver, A., Oña, A., Abaitua, F., González, D., Clemente, R., Ruiz-Díaz, J.A.,
          Li, Z., Wang, Y., Li, X., Li, X., Cao, H., and Zheng, S.J. (2013). Critical roles   Castón, J.R., Pazos, F., and Rodriguez, J.F. (2003). The oligomerization
            of glucocorticoid-induced leucine zipper in infectious bursal disease   domain of VP3, the scaffolding protein of infectious bursal disease virus,
            virus (IBDV)-induced suppression of type I interferon expression and   plays a critical role in capsid assembly. J. Virol. 77, 6438–6449.
            enhancement of IBDV growth in host cells via interaction with VP4. J.   McFerran, J.B., McNulty, M.S., McKillop, E.R., Connor, T.J., McCracken,
            Virol. 87, 1221–1231. https://doi.org/10.1128/JVI.02421-12.  R.M., Collins, D.S., and Allan, G.M. (1980). Isolation and serological
          Liang, J., Yin, Y., Qin, T., and Yang, Q. (2015). Chicken bone marrow-derived   studies with infectious bursal disease viruses from fowl, turkeys and
            dendritic cells maturation in response to infectious bursal disease virus.   ducks: demonstration of a second serotype. Avian Pathol. 9, 395–404.
            Vet. Immunol. Immunopathol. 164, 51–55. https://doi.org/10.1016/j.  Méndez, F., Romero, N., Cubas, L.L., Delgui, L.R., Rodríguez, D., and
            vetimm.2014.12.012.                                    Rodríguez, J.F. (2017). Non-lytic egression of infectious bursal disease
          Lin, J., Xia, J., Zhang, K., and Yang, Q. (2016). Genome-wide profiling   virus (IBDV) particles from infected cells. PLOS ONE 12, e0170080.
            of chicken dendritic cell response to infectious bursal disease. BMC   https://doi.org/10.1371/journal.pone.0170080.
            Genomics 17, 878. https://doi.org/10.1186/s12864-016-3157-5.  Mo, C.W., Cao, Y.C., and Lim, B.L. (2001). The in vivo and in vitro effects of
          Lin, T.W., Lo, C.W., Lai, S.Y., Fan, R.J., Lo, C.J., Chou, Y.M., Thiruvengadam,   chicken interferon alpha on infectious bursal disease virus and Newcastle
            R., Wang, A.H., and Wang, M.Y. (2007). Chicken heat shock protein 90   disease virus infection. Avian Dis. 45, 389–399.
            is a component of the putative cellular receptor complex of infectious   Morgan, M.M., Macreadie, I.G., Harley, V.R., Hudson, P.J., and Azad, A.A.
            bursal disease virus. J. Virol. 81, 8730–8741.         (1988). Sequence of the small double-stranded RNA genomic segment
          Lin, W., Zhang, Z., Xu, Z., Wang, B., Li, X., Cao, H., Wang, Y., and Zheng,   of infectious bursal disease virus and its deduced 90-kDa product.
            S.J.  (2015).  The  association  of  receptor  of  activated  protein  kinase  C   Virology 163, 240–242.
            1(RACK1) with infectious bursal disease virus viral protein VP5 and   Moyer, C.L., and Nemerow, G.R. (2011). Viral weapons of membrane
            voltage-dependent anion channel 2 (VDAC2) inhibits apoptosis and   destruction: variable modes of  membrane penetration by non-enveloped
            enhances viral replication. J. Biol. Chem. 290, 8500–8510. https://doi.  viruses. Curr. Opin. Virol.  1, 44–49. https://doi.org/10.1016/j.
            org/10.1074/jbc.M114.585687.                           coviro.2011.05.002.
          Liu, L., Zhang, W., Song, Y., Wang, W., Zhang, Y., Wang, T., Li, K., Pan, Q., Qi,   Müller, H. (1986). Replication of infectious bursal disease virus in lymphoid
            X., Gao, Y., et al. (2018). Recombinant Lactococcus lactis co-expressing   cells. Arch. Virol. 87, 191–203.
            OmpH of an M cell-targeting ligand and IBDV-VP2 protein provide   Müller, H., Islam, M.R., and Raue, R. (2003). Research on infectious
            immunological protection in chickens. Vaccine 36, 729–735.  bursal disease – the past, the present and the future. Vet. Microbiol. 97,
          Liu, M., and Vakharia, V.N. (2004). VP1 protein of infectious bursal disease   153–165.
            virus modulates the virulence in vivo. Virology 330, 62–73.  Müller, H., Mundt, E., Eterradossi, N., and Islam, M.R. (2012). Current
          Liu, M., and Vakharia, V.N. (2006). Nonstructural protein of infectious   status of vaccines against infectious bursal disease. Avian Pathol.  41,
            bursal disease virus inhibits apoptosis at the early stage of virus infection.   133–139. https://doi.org/10.1080/03079457.2012.661403.
            J. Virol. 80, 3369–3377.                            Mundt, E., Beyer, J., and Müller, H. (1995). Identification of a novel viral
          Liu, Y., Wei, Y., Wu, X., and Yu, L. (2005). Preparation of ChIL-2 and   protein in infectious bursal disease virus-infected cells. J. Gen. Virol. 76,
            IBDV VP2 fusion protein by baculovirus expression system. Cell. Mol.   437–443. https://doi.org/10.1099/0022-1317-76-2-437.
            Immunol. 2, 231–235.                                Mundt, E., Kollner, B., and Kretzschmar, D. (1997). VP5 of infectious bursal
          Lombardo, E., Maraver, A., Castón, J.R., Rivera, J., Fernández-Arias, A.,   disease virus is not essential for viral replication in cell culture. J. Virol.
            Serrano, A., Carrascosa, J.L., and Rodriguez, J.F. (1999). VP1, the   71, 5647–5651.
            putative RNA-dependent RNA polymerase of infectious bursal disease   Nakamura, T., Otaki, Y., Lin, Z., Nunoya, T., Hoshi, S., and Kato, A. (1994).
            virus, forms complexes with the capsid protein VP3, leading to efficient   Direct correlation between the titer of infectious bursal disease virus
            encapsidation into virus-like particles. J. Virol. 73, 6973–6983.  VP2-specific antibody and protection. Avian Dis. 38, 251–255.
          Lombardo, E., Maraver, A., Espinosa, I., Fernández-Arias, A., and Rodriguez,   O’Connell, R.M., Rao, D.S., and Baltimore, D. (2012). microRNA regulation
            J.F. (2000). VP5, the nonstructural polypeptide of infectious  bursal   of inflammatory responses. Annu. Rev. Immunol. 30, 295–312. https://
            disease virus, accumulates within the host plasma membrane and   doi.org/10.1146/annurev-immunol-020711-075013.
            induces cell lysis. Virology  277, 345–357. https://doi.org/10.1006/  Ogawa, M., Yamaguchi, T., Setiyono, A., Ho, T., Matsuda, H., Furusawa,
            viro.2000.0595.                                        S., Fukushi, H., and Hirai, K. (1998). Some characteristics of a cellular
          Lu, J., Getz, G., Miska, E.A., Alvarez-Saavedra, E., Lamb, J., Peck, D.,   receptor for virulent infectious bursal disease virus by using flow
            Sweet-Cordero, A., Ebert, B.L., Mak, R.H., Ferrando, A.A., et al. (2005).   cytometry. Arch. Virol. 143, 2327–2341.
            MicroRNA  expression  profiles classify  human cancers. Nature  435,   Omar,  A.R., Kim,  C.L.,  Bejo, M.H., and  Ideris,  A. (2006).  Efficacy of
            834–838.                                               VP2 protein expressed in E. coli for protection against highly virulent
          Luo, J., Zhang, H., Teng, M., Fan, J.M., You, L.M., Xiao, Z.J., Yi, M.L., Zhi,   infectious bursal disease virus. J. Vet. Sci. 7, 241–247.
            Y.B., Li, X.W., and Zhang, G.P. (2010). Surface IgM on DT40 cells may   O’Neill, A.M., Livant, E.J., and Ewald, S.J. (2010). Interferon alpha-induced
            be a component of the putative receptor complex responsible for the   inhibition of infectious bursal disease virus in chicken embryo fibroblast
            binding of infectious bursal disease virus. Avian Pathol. 39, 359–365.   cultures differing in Mx genotype. Avian Dis. 54, 802–806. https://doi.
            https://doi.org/10.1080/03079457.2010.506211.          org/10.1637/9001-072309-Reg.1.