342  |  Coppo et al.
          Mahmoudian, A., Markham, P.F., Noormohammadi, A.H., Devlin, J.M., and   recombinants expressing H5 hemagglutinin and N1 neuraminidase.
            Browning, G.F. (2013). Differential transcription patterns in wild-type   Vaccine 27, 773–785. https://doi.org/10.1016/j.vaccine.2008.11.033
            and glycoprotein G-deleted infectious laryngotracheitis viruses. Avian   Pavlova, S.P., Veits, J., Blohm, U., Maresch, C., Mettenleiter, T.C., and Fuchs,
            Pathol. 42, 253–259. https://doi.org/10.1080/03079457.2013.780649  W. (2010). In vitro and in vivo characterization of glycoprotein C-deleted
          Martin, D.P., Murrell, B., Golden, M., Khoosal, A., and Muhire, B. (2015).   infectious laryngotracheitis virus. J. Gen. Virol. 91, 847–857.
            RDP4: Detection and analysis of recombination patterns in virus   Pavlova, S., Veits, J., Mettenleiter, T.C., and Fuchs, W. (2013). Identification
            genomes. Virus Evol. 1, vev003. https://doi.org/10.1093/ve/vev003  and functional analysis of membrane proteins gD, gE, gI, and pUS9 of
          Mashchenko, A., Riblet, S.M., Zavala, G., and García, M. (2013).  In  ovo   Infectious laryngotracheitis virus. Avian Dis. 57 (Suppl. 2), 416–426.
            vaccination of commercial broilers with a glycoprotein J gene-deleted   https://doi.org/10.1637/10332-082612-Reg.1
            strain of infectious laryngotracheitis virus. Avian Dis. 57 (Suppl. 2),   Periyannan Rajeswari, P.K., Soderberg, L.M., Yacoub, A., Leijon, M.,
            523–531. https://doi.org/10.1637/10413-100512-Reg.1    Andersson Svahn, H., and Joensson, H.N. (2017). Multiple pathogen
          May, H.G., and Titsler, R.P. (1925). Tracheolaryngotracheitis in poultry. J.   biomarker detection using an encoded bead array in droplet PCR. J.
            Am. Vet. Med. Assoc. 57, 229–231.                      Microbiol. Methods 139, 22–28.
          McGeoch,  D.J.  (1990).  Evolutionary  relationships  of  virion  glycoprotein   Piccirillo, A., Lavezzo, E., Niero, G., Moreno, A., Massi, P., Franchin, E.,
            genes in the S regions of alphaherpesvirus genomes. J. Gen. Virol. 71,   Toppo, S., Salata, C., and Palù, G. (2016). Full genome sequence-based
            2361–2367. https://doi.org/10.1099/0022-1317-71-10-2361  comparative study of wild-type and vaccine strains of infectious
          Menendez, K.R., García, M., Spatz, S., and Tablante, N.L. (2014). Molecular   laryngotracheitis virus from Italy. PLOS ONE 11, e0149529. https://
            epidemiology of infectious laryngotracheitis: a review. Avian Pathol. 43,   doi.org/10.1371/journal.pone.0149529
            108–117. https://doi.org/10.1080/03079457.2014.886004  Plummer, G., Goodheart, C.R., Henson, D., and Bowling, C.P. (1969). A
          Meulemans, G., and Halen, P. (1978). Some physico-chemical and biological   comparative study of the DNA density and behavior in tissue cultures of
            properties of a Belgian strain (U 76/1035) of infectious laryngotracheitis   fourteen different herpesviruses. Virology 39, 134–137.
            virus. Avian Pathol. 7, 311–315.                    Poulsen, D.J., and Keeler, C.L. (1997). Characterization of the assembly and
          Moreno, A., Piccirillo, A., Mondin, A., Morandini, E., Gavazzi, L., and   processing of infectious laryngotracheitis virus glycoprotein B. J. Gen.
            Cordioli, P. (2010). Epidemic of infectious laryngotracheitis in Italy:   Virol. 78, 2945–2951. https://doi.org/10.1099/0022-1317-78-11-2945
            characterization of virus isolates by PCR-restriction fragment length   Poulsen, D.J., Thureen, D.R., and Keeler, C.L. (1998). Research notes:
            polymorphism and sequence analysis. Avian Dis.  54, 1172–1177.   Comparison of disease susceptibility and resistance in three lines of
            https://doi.org/10.1637/9398-051910-Reg.1              chickens experimentally infected with infectious laryngotracheitis virus.
          Morgan, R.W., Xie, Q., Cantello, J.L., Miles, A.M., Bernberg, E.L., Kent,   Poult. Sci. 77, 17–21. https://doi.org/10.1093/ps/77.1.17
            J., and Anderson, A. (2001). Marek’s disease virus latency. Curr. Top.   Prideaux, C.T., Kongsuwan, K., Johnson, M.A., Sheppard, M., and Fahey,
            Microbiol. Immunol. 255, 223–243.                      K.J. (1992). Infectious laryngotracheitis virus growth, DNA replication,
          Mundt, A., Mundt, E., Hogan, R.J., and García, M. (2011). Glycoprotein   and protein synthesis. Arch. Virol. 123, 181–192.
            J of infectious laryngotracheitis virus is required for efficient egress of   Rachamadugu,  R.,  Lee,  J.Y.,  Wooming,  A.,  and  Kong,  B.W.  (2009).
            infectious virions from cells. J. Gen. Virol. 92, 2586–2589.  Identification and expression analysis of infectious laryngotracheitis
          Nadimpalli, M., Lee, S.W., Devlin, J.M., Gilkerson, J.R., and Hartley, C.A.   virus encoding microRNAs. Virus Genes  39, 301–308. https://doi.
            (2017). Impairment of infectious laryngotracheitis virus replication by   org/10.1007/s11262-009-0397-3
            deletion of the UL[–1] gene. Arch. Virol. 162, 1541–1548. https://doi.  Read, A.F., Baigent, S.J., Powers, C., Kgosana, L.B., Blackwell, L., Smith,
            org/10.1007/s00705-017-3266-8                          L.P., Kennedy, D.A., Walkden-Brown, S.W., and Nair, V.K. (2015).
          Nair, V., Jones, R.C., and Gough, R.E. (2017). Herpesviridae. In Poultry   Imperfect vaccination can enhance the transmission of highly virulent
            Diseases, M. Pattison, P.F. McMullin, J.M. Bradbury, and D.J. Alexander,   pathogens. PLOS Biol. 13, e1002198. https://doi.org/10.1371/journal.
            eds (Elsevier, London), pp. 258–275.                   pbio.1002198
          Neff, C., Sudler, C., and Hoop, R.K. (2008). Characterization of western   Reddy, V.R., Steukers, L., Li, Y., Fuchs, W., Vanderplasschen, A., and
            European field isolates and vaccine strains of avian infectious   Nauwynck, H.J. (2014). Replication characteristics of infectious
            laryngotracheitis virus by restriction fragment length polymorphism   laryngotracheitis virus in the respiratory and conjunctival mucosa. Avian
            and sequence analysis. Avian Dis.  52, 278–283. https://doi.  Pathol. 43, 450–457. https://doi.org/10.1080/03079457.2014.956285
            org/10.1637/8168-110107-Reg.1                       Reddy, V.R., Trus, I., and Nauwynck, H.J. (2017). Presence of DNA
          Oldoni, I., and García, M. (2007). Characterization of infectious   extracellular traps but not MUC5AC and MUC5B mucin in mucoid
            laryngotracheitis virus isolates from the US by polymerase chain reaction   plugs/casts of infectious laryngotracheitis virus (ILTV) infected tracheas
            and restriction fragment length polymorphism of multiple genome   of chickens. Virus Res. 227, 135–142.
            regions. Avian Pathol. 36, 167–176.                 Rey, F.A. (2006). Molecular gymnastics at the herpesvirus surface. EMBO
          Oldoni, I., Rodríguez-Avila, A., Riblet, S., and García, M. (2008).   Rep. 7, 1000–1005.
            Characterization of infectious laryngotracheitis virus (ILTV) isolates   Robertson, G.M., and Egerton, J.R. (1981). Replication of infectious
            from commercial poultry by polymerase chain reaction and restriction   laryngotracheitis virus in chickens following vaccination. Aust. Vet. J. 57,
            fragment length polymorphism (PCR-RFLP). Avian Dis.  52, 59–63.   119–123.
            https://doi.org/10.1637/8054-070607-Reg             Roizman, B., and Pellet, P.E. (2001). The family Herpesviridae: a brief
          Oldoni, I., Rodríguez-Avila, A., Riblet, S.M., Zavala, G., and García, M.   introduction. In Field’s Virology, D.M. Knipe, and P.M. Howley, eds
            (2009). Pathogenicity and growth characteristics of selected infectious   (Lippincott Williams and Wilkins, Philadelphia, PA), pp. 2381–2398.
            laryngotracheitis virus strains from the United States. Avian Pathol. 38,   Roy, P., Fakhrul Islam, A.F., Burgess, S.K., Hunt, P.W., McNally, J., and
            47–53. https://doi.org/10.1080/03079450802632031       Walkden-Brown, S.W. (2015). Real-time PCR quantification of
          Ou, S.C., Giambrone, J.J., and Macklin, K.S. (2012). Comparison   infectious laryngotracheitis virus in chicken tissues, faeces, isolator-dust
            of a TaqMan real-time polymerase chain reaction assay with a   and bedding material over  28 days following infection reveals high
            loop-mediated isothermal amplification assay for detection of   levels in faeces and dust. J. Gen. Virol.  96, 3338–3347. https://doi.
            Gallid herpesvirus 1. J. Vet. Diagn. Invest.  24, 138–141. https://doi.  org/10.1099/jgv.0.000268
            org/10.1177/1040638711427578                        Rux,  A.H., Lou,  H., Lambris,  J.D.,  Friedman,  H.M.,  Eisenberg,  R.J.,  and
          Parcells, M.S., Anderson, A.S., and Morgan, R.W. (1994). Characterization   Cohen, G.H. (2002). Kinetic analysis of glycoprotein C of herpes simplex
            of a Marek’s disease virus mutant containing a lacZ insertion in the US6   virus types 1 and 2 binding to heparin, heparan sulfate, and complement
            (gD) homologue gene. Virus Genes 9, 5–13.              component C3b. Virology  294, 324–332. https://doi.org/10.1006/
          Pavlova, S.P., Veits, J., Keil, G.M., Mettenleiter, T.C., and Fuchs, W. (2009).   viro.2001.1326
            Protection of chickens against H5N1 highly pathogenic avian influenza   Saffran, H.A., Read, G.S., and Smiley, J.R. (2010). Evidence for translational
            virus infection by live vaccination with infectious laryngotracheitis virus   regulation by the herpes simplex virus virion host shutoff protein. J.
                                                                   Virol. 84, 6041–6049. https://doi.org/10.1128/JVI.01819-09