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References
Abramson, A.W., 1944, Varicella and herpes zoster: an experiment. Br. Med. J. 1:812–13
Alconada, A., Bauer, U., and Hoflack, B., 1996, A tyrosine-based motif and a casein kinase II phosphorylation site regulate the intracellular trafficking of the varicella-zoster virus glycoprotein I, a protein localized in the trans-Golgi network. Embo J. 15:6096–6110
Arvin, A.M., Kinney-Thomas, E., Shriver, K., Grose, C., Koropchak, C.M., Scranton, E., Wittek, A.E., and Diaz, P.S., 1986, Immunity to varicella-zoster viral glycoproteins, gpI (gp90/58) and gpIII (gp118), and to nonglycosylated protein. J. Immunol. 137:1346–1351
Bergen, R.E., Sharp, M., Sanchez, A., Judd, A.K., and Arvin, A.M., 1991, Human T cells recognize multiple epitopes on an immediate early/tegument protein (IE62) and glycoprotein I of varicella zoster virus. Viral Immunol. 4:151–166
Bosc, D.G., Slominski, E., Sichler, C., and Litchfield, D.W., 1995, Phosphorylation of casein kinase II by p34 cdc2. J. Biol. Chem. 270:25872–25878
Bremnes, B., Madsen, T., Gedde-Dahl, M., and Bakke, O., 1994, An LI and ML motif in the cytoplasmic tail of the MHC-associated invariant chain mediates rapid internalization. J. Cell Scienc. 107:2021–2032
Brookes, A.J., 1999, The essence of SNPs. Gene. 234:177–186
Cohen, J. I., and Nguyen, H., 1997, Varicella-zoster virus glycoprotein I is essential for growth of virus in Vero cells. J. Virol. 71:6913–6920
Collawn, J.F., Stangel, M., Kuhn, L.A., Esekogwu, V., Jing, S., Trowbridge, I.S., and Trainer, J.A., 1990, Transferrin receptor internalization sequence YXRF implicates a tight turn as the structural recognition motif for endocytosis. Cell 63:1061–1072
Collins, F.S., Guyer, M.S., and Chakravarti, A., 1997, Variations on a theme: Cataloguing human DNA sequence variation. Science 278:1580–1581
Davison, A.J., and Scott, J.E., 1986, The complete DNA sequence of varicella-zoster virus. J. Gen. Virol. 67:1759–1816
Dingwell, K.S., Brunetti, C.R., Hendriks, R.L., Tang, Q., Tang, M., Rainbow, A.J., and Johnson, D.C., 1994, Herpes simplex virus glycoproteins E and I facilitate cell-to-cell spread in vivo and across junctions of cultured cells. J. Virol. 68:834–845
Duus, K., and Grose, C., 1996, Multiple regulatory effects of varicella-zoster virus gL on trafficking patterns and fusogenic properties of VZV and gH. J. Virol. 70:8961–8971
Edson, C.M., 1993, Tyrosine sulfation of varicella-zoster virus envelope glycoprotein gpI. Virology 197:159–165
Edson, C.M., Hosier, B.A., Poodry, C.A., Schooley, R.T., Waters, D.J., and Thorley-Lawson, D.A., 1985, Varicella-zoster virus envelope glycoproteins: biochemical characterization and identification in clinical material. Virology 145:62–71
Faga, B., Maury, W., Bruckner, D.A., and Grose, C., 2001, Identification and mapping of single nucleotide polymorphisms in the varicella-zoster virus genome. Virology 280:1–6
Gershon, A., Cosio, L., and Brunell, P.A., 1973, Observations on the growth of varicella-zoster virus in human diploid cells. J. Gen. Virol. 18:21–31
Grose, C., 1980, The synthesis of glycoproteins in human melanoma cells infected with varicella-zoster virus. Virology 101:1–9
Grose, C., 1990, Glycoproteins encoded by varicella-zoster virus: biosynthesis, phosphorylation, and intracellular trafficking. Ann. Rev. Microbiol. 44:59–80
Grose, C., 1991, Glycoproteins of varicella-zoster virus and their herpes simplex virus homologs. Rev. Infect. Dis. 13:S960–963
Grose, C., 1999, Varicella-zoster virus: Less immutable than once thought. Pediatrics 103:1027–1028
Grose, C., Edmond, B.J., and Friedrichs, W.E., 1981, Immunogenic glycoproteins of laboratory and vaccine strains of varicella-zoster virus. Infect. Immun. 31:1044–1053
Grose, C., and Friedrichs, W.E., 1982, Immunoprecipitable polypeptides specified by varicella-zoster virus. Virology 118:86–95
Grose, C., Friedrichs, W.E., and Smith, G.C., 1983, Purification and molecular anatomy of the varicella-zoster virion. Biken J. 26:1–15
Grose, C., Jackson, W., and Traugh, J.A., 1989, Phosphorylation of varicella-zoster virus glycoprotein gpI by mammalian casein kinase IIand casien kinase I. J. Virol. 63:3912–3918
Harper, D.R., and Kangro, H.O., 1990, Lipoproteins of varicella-zoster virus. J. Gen. Virol. 71:459–463
Harson, R., and Grose, C., 1995, Egress of varicella-zoster virus from the melanoma cell: a tropsim for the melanocyte. J. Virol. 69:4994–5010
Hatfield, C., Duus, K.M., Jones, D.J., and Grose, C., 1997, Epitope mapping and tagging by recombination PCR mutagenesis. BioTechniques 22:332–337
Hope-Simpson, R.E., 1965, The nature of herpes zoster: a long-term study and new hypothesis. Proc. Roy. Soc. Med. (Lond.). 58:9–20
Ito, M., Ihara, T., Grose, C., and Starr, S., 1985, Human leukocytes kill varicella-zoster virus infected fibroblasts in the presence of murine monoclonal antibodies to virus-specific glycoproteins. J. Virol. 54:98–102
Jones, F., and Grose, C., 1988, Role of cytoplasmic vaeuoles in varicella-zoster virus glycoprotein trafficking and virion envelopment. J. Virol. 62:2701–2711
Kimura, H., Straus, S.E., and Williams, R.K., 1997, Varicella-zoster virus glycoproteins E and I expressed in insect cells form a heterodimer that requires the N-terminal domain of glycoprotein I. Virology 233:382–391
Kishimoto, A., Brown, M.S., Slaughter, C.A., and Goldstein, J.L., 1987, Phosphorylation of serine 833 in cytoplasmic domain of low intensity lipoprotein receptor by a high molecular weight enzyme resembling casein kinase II. J. Biol. Chem. 262:1344–1351
Letourneur, F., and Klausner, R.D., 1992, A novel di-leucine motif and a tyrosine-based motif independently mediate lysosomal targeting and endocytosis of CD3 chains. Cell 69:1143–1157
Litchfield, D.W., Bosc, D.G., and Slominski, E., 1995, The protein kinase from mitotic human cells that phosphorylates Ser-209 on the casein kinase II β-subunits is p34 cdc2. Biochim. Biophys. Acta 1269:69–78
Ltiwin, V., and Grose, C., 1992, Herpesviral Fc receptors and their relationship to the human Fc receptors. Immunologic Research 11:226–38
Litwin, V., Jackson, W., and Grose, C., 1992, Receptor properties of two varicella-zoster virus glycoproteins gpI and gpIV homologous to herpes simplesvirus gE and gI. J. Virol. 66:3643–51
Litwin, V., Sandor, M., and Grose, C., 1990, Cell surface expression of the varicella-zoster virus glycoproteins and Fc receptor. Virology 178:263–272
Mallory, S., Sommer, M., and Arvin, A.M., 1997, Mutational analysis of the role of glycoprotein I in varicella-zoster virus replication and its effects on glycoprotein E conformation and trafficking. J. Virol. 71:8279–8288
Montalvo, E.A., and Grose, C., 1986, Varicella zoster virus glycoprotein gpI is selectively phosphorylated by a virus-induced protein kinase. Proc. Nat. Acad. Sci. USA. 83:8967–8971
Montalvo, E.A., Parmley, R.T., and Grose, C., 1985, Structural analysis of the varicella-zoster virus gp98-gp62 complex: Posttranslational addition of N-linked and O-linked oligosaccharide moieties. J. Virol. 53:761–770
Namazue, J., Kato, T., Okuno, T., Shiraki, K,. and Yamanishi, K., 1989, Evidence for attachment of fatty acid to varicella-zoster virus glycoproteins and effect of cerulenin on the maturation of varicella-zoster virus glycoproteins. Intervirology. 30:268–277
Ng, T., and Grose, C., 1992, Serine protein kinase associated with varicella-zoster virus ORF 47, Virology 191:9–18
Ng, T., Keenan, L., Kinchington, P.R., and Grose, C., 1994, Phosphorylation of varicellazoster virus open reading frame (ORF) 62 regulatory product by viral ORF 47 associated protein kinase. J. Virol. 68:1350–1359
Olson, J., Bishop, G., and Grose, C., 1997, Varicella-zoster virus Fc receptor gE glycoprotein: Serine/threonine and tyrosine phosphorylation of monomeric and dimeric forms. J. Virol. 71:110–119
Olson, J.K., and Grose, C., 1997, Endocytosis and recycling of varicella-zoster virus Fc receptor glycoprotein gE: internalization mediated by YXXL motif in the cytoplasmic tail. J. Virol. 71:4042–4054
Olson, J.K., and Grose, C., 1998, Complex formation facilitates endocytosis of the varicella-zoster virus gE:gI Fc receptor. J Virol. 72:1542–1551
Santos, R.A., Hatfield, C.C., Cole, N.L., Padilla, J.A., Moffat, J.F., Arvin, A.M., Ruyechan, W.T., Hay, J., and Grose, C., 2000, Varicella-zoster virus gE escape mutant VZV-MSP exhibits an accelerated cell-to-cell spread phenotype in both infected cell cultures and SCID-hu mice. Virology 275:306–317
Santos, R.A., Padilla, J.A., Hatfield, C.C., and Grose, C., 1998, Antigenic variation of caricella zoster virus Fc receptor gE: loss of a major B cell epitope in the ectodomain. Virology 249:21–31
Takahashi, M., Okuno, Y., Otsuka, T., Osame, J., Takamizawa, A., Sasada, T., and Kubo, T., 1975, Development of a live attenuated varicella vaccine. Biken J. 18:25–33
Trowbridge, I.S., Collawn, J.F., and Hopkins, C.R., 1993, Signal-dependent trafficking in the endocytic pathway. Ann. Rev. Cell Biol. 9:129–161
Tugizov, S., Maidji, E., Xiao, J., Zheng, Z., and Pereira, L., 1998, Human cytomegalovirus glycoprotein B contains autonomous determinants for vectorial targeting to apical membranes of polarized epithelial cells. J. Virol. 72:7374–7386
Vafai, A., Wroblewska, Z., Mahalingham, R, Cabirac, G., Wellish, M., Cisco, M., Gilden D. Recognition of similar epitopes on varicella-zoster virus gpI and gpIV by monoclonal antibodies. J. Virol. 62: 2544–2551.
Wang, D.G., Fan, J.B., Siao, C.J., Berno, A., Young, P., Sapolsky, R., Ghandour, G., Perkins, N., Winchester, E., Spencer, J., Kruglyak, L., Stein, L., Hsie, L., Topaloglou, T., Hubbel, E., Robinson, E., Mittmann, M., Morrris, M.S, Shen, N., Kilburn, D., Rioux, J., Nusbaum, C., Rozen, S., Hudson, T.J., Liptshutz, R., Chee, M., and Lander, E.S., 1998, Large-scale identification, mapping, and genotyping of single-nucleotide polymorphisms in the human genome. Science 280:1077–1082
Weigle, K.A., and Grose, C., 1983, Common expression of varicella-zoster virus glycoprotein antigens in vitro and in chickenpox and zoster vesicles. J. Infect. Dis. 148:630–638
Weigle, K.A., and Grose, C., 1984, Molecular dissection of the humoral immune response to individual varicella-zoster virus proteins during chickenpox, quiescence, reexposure, and reactivation. J. Infect. Dis. 149:741–749
Weller, T.H., 1953, Serial propagation in vitro of agents producing inclusion bodies derived from varicella and herpes zoster. Proc. Soc. Exp. Biol. Med. 83:340–346
Yao, Z., and Grose, C., 1994, Unusual phosphorylation sequence on the gpIV (gI) component of the varicella-zoster virus (VZV) gpI-gpIVglycoprotein complex (VZV gE-gI complex). J. Virol 68:4202–4211
Yao, Z., Jackson, W., Forghani, B., and Grose, C., 1993, Varicella-zoster virus glycoprotein gpI/gpIV receptor: Expression, complex formation, and antigenicity within the vaccinia virus-T7 RNA polymerase transfection system. J. Virol. 67:305–314
Yao, Z., Jackson, W., and Grose, C., 1993, Identification of the phosphorylation sequence in the cytoplasmic tail of the varicella-zoster virus Fc receptor glycoprotein gpI. J. Virol. 67:4464–4473
Yao, Z., Jones, D.H., and Grose, C., 1992, Site-directed mutagenesis of herpesvirus glycoprotein phosphorylation sites by recombination polymerase chain reaction. PCR Methods Appl. 1:205–207
Ye, M., Duus, K.M., Peng, J., Price, D.H., and Grose, C., 1999, Varicella-zoster virus Fc receptor component gI is phosphorylated in its endodomain by a cyclin dependent kinase. J. Virol. 73:1320–1330
Zhu, Z., Gershon, M.D., Hao, Y., Ambron, R.T., Gabel, C.A., and Gershon, A.A., 1995. Envelopment of varicella-zoster virus: targeting of viral glycoproteins to the trans-Golgi network. J. Virol. 69:7951–7959
Zhu, Z., Hao, Y., Gershon, M.D., Ambron, R.T., and Gershon, A.A., 1996, Targeting of glycoprotein I (gE) of varicella-zoster virus to the trans-Golgi network by an AYRV sequence and an acidic amino-acid rich patch in the cytosolic domain of the molecule. J. Virol. 70:6563–6575
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Grose, C. (2002). The Predominant Varicella-zoster Virus gE and gI Glycoprotein Complex. In: Holzenburg, A., Bogner, E. (eds) Structure-Function Relationships of Human Pathogenic Viruses. Springer, Boston, MA. https://doi.org/10.1007/0-306-47650-9_8
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