Biology Reference
In-Depth Information
Hwang J, Kalejta RF (2007) Proteasome-dependent, ubiquitin-independent degradation of Daxx
by the viral pp71 protein in human cytomegalovirus-infected cells. Virology 667:334-338
Isaacson MK, Feire AL, Compton T (2007) The epidermal growth factor receptor is not required
for human cytomegalovirus entry or signaling. J Virol 81:6241-6247
Isomura H, Tsurumi T, Stinski MF (2004) Role of the proximal enhancer of the major immediate-
early promoter in human cytomegalovirus replication. J Virol 78:12788-12799
Isomura H, Stinski MF, Kudoh A, Daikoku T, Shirata N, Tsurumi T (2005) Two Sp1/Sp3 binding
sites in the major immediate-early proximal enhancer of human cytomegalovirus have a sig-
nificant role in viral replication. J Virol 79:9597-9607
Kalejta RF (2004) Human cytomegalovirus pp71: a new viral tool to probe the mechanisms of cell
cycle progression and oncogenesis controlled by the retinoblastoma family of tumor suppres-
sors. J Cell Biochem 93:37-45
Kalejta RF, Shenk T (2002) Manipulation of the cell cycle by human cytomegalovirus. Front
Biosci 7:295-306
Kalejta RF, Shenk T (2003a) Proteasome-dependent, ubiquitin-independent degradation of the Rb
family of tumor suppressors by the human cytomegalovirus pp71 protein. Proc Natl Acad Sci
U S A 100:3263-3268
Kalejta RF, Shenk T (2003b) The human cytomegalovirus UL82 gene product (pp71) accelerates
progression through the G1 phase of the cell cycle. J Virol 77:3451-3459
Kalejta RF, Bechtel JT, Shenk T (2003) Human cytomegalovirus pp71 stimulates cell cycle pro-
gression by inducing the proteasome-dependent degradation of the retinoblastoma family of
tumor suppressors. Mol Cell Biol 23:1887-1895
Keay S, Baldwin B, Smith MW, Wasserman SS, Goldman WF (1995) Increases in [Ca
2+
]
i
mediated
by the 92.5-kDa putative cell membrane receptor for HCMV gp86. Am J Physiol 269: C11-C21
Kim HJ, Hawke N, Baldwin AS (2006) NFκ-B and IKK as therapeutic targets in cancer. Cell
Death Differ 13:738-747
Lu
, Shenk T (1999) Human cytomegalovirus UL69 protein induces cells to accumulate in G1
phase of the cell cycle. J Virol 73:676-683
Maidji E, Genbacev O, Chang HT, Pereira L (2007) Developmental regulation of human cytome-
galovirus receptors in cytotrophoblasts correlates with distinct replication sites in the placenta.
J Virol 81:4701-4712
Mar EC, Patel PC, Huang ES (1981) Human cytomegalovirus-associated DNA polymerase and
protein kinase activities. J Gen Virol 57:149-156
McCormick AL, Skaletskaya A, Barry PA, Mocarski ES, Goldmacher VS (2003) Differential
function and expression of the viral inhibitor of caspase 8-induced apoptosis (vICA) and the
viral mitochondria-localized inhibitor of apoptosis (vMIA) cell death suppressors conserved in
primate and rodent cytomegaloviruses. Virology 316:221-233
Melnick JL, Adam E, DeBakey ME (1993) Human cytomegalovirus and atherogenesis. In: Becker Y,
Darai G, Huang ES (eds) Molecular aspects of human cytomegalovirus diseases. Springer-
Verlag, Berlin, pp 80-91
Michelson S, Turowski P, Picard L, Goris J, Landini MP, Topilko A, Hemmings B, Bessia C,
Garcia A, Virelizier JL (1996) Human cytomegalovirus carries serine/threonine protein phos-
phatases PP1 and a host-cell derived PP2A. J Virol 70:1415-1423
Mocarski ES Jr, Shenk T, Pass RF (2007) Cytomegaloviruses. In: Knipe DM, Howley PM (eds)
Fields virology, vol 2. Lippincott Williams & Wilkins, Philadelphia, pp 2701-2772
Munger J, Yu D, Shenk T (2006) UL26-deficient human cytomegalovirus produces virions with
hypophosphorylated pp28 tegument protein that is unstable within newly infected cells. J Virol
80:3541-3548
Myerson D, Hackman RC, Nelson JA, Ward DC, McDougall JK (1984) Widespread presence of
histologically occult cytomegalovirus. Hum Pathol 15:430-439
Nogalski MT, Podduturi JP, DeMeritt IB, Milford LE, Yurochko AD (2007) The HCMV virion
possesses an activated CKII that allows for the rapid phosphorylation of the inhibitor of NFκ-
B, IκBα. J Virol 81:5305-5314
Μ
