Biology Reference
In-Depth Information
Suomalainen M, Nakano MY, Boucke K, Keller S, Greber UF (2001) Adenovirus-activated PKA
and p38/MAPK pathways boos microtubule-mediated nuclear targeting of virus. EMBO J
20:1310-1319
Sullivan V, Talarico CL, Stanat SC, Davis M, Coen DM, Biron KK (1992) A protein kinase homo-
logue controls phosphorylation of ganciclovir in human cytomegalovirus-infected cells.
Nature 358:162-164
Tavalai N, Papior P, Rechter S, Leis M, Stamminger T (2006) Evidence for a role of the cellular
ND10 protein PML in mediating intrinsic immunity against human cytomegalovirus infec-
tions. J Virol 80:8006-8018
Terhune SS, Schroer J, Shenk T (2004) RNAs are packaged into human cytomegalovirus virions
in proportion to their intracellular concentration. J Virol 78:10390-10398
Terhune S, Torigoi E, Moorman N, Silva M, Qian Z, Shenk T, Yu D (2007) Human cytomegalovi-
rus UL38 protein blocks apoptosis. J Virol 81:3109-3123
Trgovcich J, Cebulla C, Zimmerman P, Sedmak DD (2006) Human cytomegalovirus protein pp71
disrupts major histocompatibility complex class I cell surface expression. J Virol 80:951-963
Trus BL, Gibson W, Cheng N, Steven AC (1999) Capsid structure of simian cytomegalovirus from
cryoelectron microscopy: evidence for tegument attachment sites. J Virol 73:2181-2192
Varnum SM, Streblow DN, Monroe ME, Smith P, Auberry KJ, Pasa-Tolic L, Wang D, Camp DG,
Rodland K, Wiley S, Britt W, Shenk T, Smith RD, Nelson J (2004) Identification of proteins
in human cytomegalovirus (HCMV) particles: the HCMV proteome. J Virol 78:10960-10966
Vittone V, Diefenbach E, Triffett D, Douglas MW, Cunningham AL, Diefenbach RJ (2005)
Determination of interactions between tegument proteins of herpes simplex virus type 1.
J Virol 79:9566-9571
Wang J, Loveland AN, Kattenhorn LM, Ploegh HL, Gibson W (2006) High-molecular-weight
protein (pUL48) of human cytomegalovirus is a competent deubiquitinating protease: mutant
viruses altered in its active-site cysteine or histidine are viable. J Virol 80:6003-6012
Welte MA (2004) Bidirectional transport along microtubules. Curr Biol 14:525-537
Wiesmeijer K, Molenaar C, Bekeer IM, Tanke HJ, Dirks RW (2002) Mobile foci of SP100 do not
contain PML: PML bodies are immobile but PML and SP100 proteins are not. J Struct Biol
140:180-188
Wills MR, Carmichael AJ, Mynard K, Jin X, Weeks MP, Plachter B, Sissons JGP (1996) The
human cytotoxic T-lymphocyte (CTL) response to cytomegalovirus is dominated by structural
protein pp65: frequency, specificity, and T-cell receptor usage of pp65-specific CTL. J Virol
70:7569-7579
Wolfstein A, Nagel CH, Radtke K, Dohner K, Allan VJ, Sodeik B (2006) The inner tegument
promotes herpes simplex virus capsid motility along microtubules in vitro. Traffic 7:227-237
Woodhall DL, Groves IJ, Reeves MB, Wilkinson G, Sinclair JH (2006) Human Daxx-mediated
repression of human cytomegalovirus gene expression correlates with a repressive chromatin
structure around the major immediate early promoter. J Biol Chem 49:37652-37660
Wing BA, Lee GCY, Huang E-S (1996) The human cytomegalovirus UL94 open reading frame
encodes a conserved herpesvirus capsid/tegument-associated virion protein that is expressed
with true late kinetics. J Virol 70:3339-3345
Yao ZQ, Gallez-Hawkins G, Lomeli NA, Li X, Molinder KM, Diamond DJ, Zaia JA (2001) Site-
directed mutation in a conserved kinase domain of human cytomegalovirus-pp65 with preser-
vation of cytotoxic T lymphocyte targeting. Vaccine 19:1628-1635
Yoakum GH (1993) Mapping a putative pyruvoyl decarboxylase active site to human cytomegalo-
virus open reading frame UL77. Biochem Biophys Res Comm 194:1207-1215
Yu D, Silva MC, Shenk T (2003) Functional map of human cytomegalovirus AD169 defined by
global mutagenesis analysis. Proc Natl Acad Sci USA 100:12396-12401
