Biology Reference
In-Depth Information
Gibson W (2006) Assembly and maturation of the capsid. In: Reddehase MJ (ed) Cytomegaloviruses:
molecular biology and immunology. Caister Academic Press, pp 231-244
Gibson W, Irmiere A (1984) Selection of particles and proteins for use as human cytomegalovirus
subunit vaccines. Birth Defects 20:305-324
Gibson W, Roizman B (1972) Proteins specified by herpes simplex virus. VIII. characterization
and composition of multiple capsid forms of subtypes 1 and 2. J Virol 10:1044-1052
Hensel G, Meyer H, Gartner S, Brand G, Kern HF (1995) Nuclear localization of the human
cytomegalovirus tegument protein pp150 (ppUL32). J Gen Virol 76:1591-1601
Holzenburg A, Bogner E (2002) From concatemeric DNA into unit-length genomes - a miracle or
clever genes? In: Holzenburg A, Bogner E (eds) Structure-function relationships of human
pathogenic viruses, vol 1. Kluwer Academic, New York, pp 155-173
Irmiere A, Gibson W (1983) Isolation and characterization of a noninfectious virion-like par-
ticle released from cells infected with human strains of cytomegalovirus. Virology
130:118-133
Irmiere A, Gibson W (1985) Isolation of human cytomegalovirus intranuclear capsids, characteri-
zation of their protein constituents, and demonstration that the B-capsid assembly protein is
also abundant in noninfectious enveloped particles. J Virol 56:277-283
Kattenhorn LM, Korbel GA, Kessler BM, Spooner E, Ploegh HL (2005) A deubiquitinating
enzyme encoded by HSV-1 belongs to a family of cysteine proteases that is conserved across
the family Herpesviridae. Mol Cell 19:547-557
Klupp BG, Granzow H, Mettenleiter TC (2000) Primary envelopment of pseudorabies virus at the
nuclear membrane requires the UL34 gene product. 25th International Herpesvirus Workshop:
Abstract 7.04
Klupp BG, Granzow H, Mettenleiter TC (2001) Effect of the pseudorabies virus US3 protein on
nuclear membrane localization of the UL34 protein and virus egress from the nucleus. J Gen
Virol 82:2363-2371
Ladin BF, Ihara S, Hampl H, Ben-Porat T (1982) Pathway of assembly of herpesvirus capsids: an
analysis using DNA+ temperature-sensitive mutants of pseudorabies virus. Virology
116:544-561
Lee JY, Irmiere A, Gibson W (1988) Primate cytomegalovirus assembly: evidence that DNA
packaging occurs subsequent to B capsid assembly. Virology 167:87-96
Leuzinger H, Ziegler U, Schraner EM, Fraefel C, Glauser DL, Heid I, Ackermann M, Mueller M,
Wild P (2005) Herpes simplex virus 1 envelopment follows two diverse pathways. J Virol
79:13047-13059
Liu F, Zhou ZH (2007) Comparative virion structures of human herpesviruses. In: Arvin A,
Campadelli-Fiume G, Mocarski E, Moore PS, Roizman B, Whitley R, Yamanishi K (eds)
Human herpesviruses : biology, therapy, and immunoprophylaxis. Cambridge University
Press, Cambridge, pp 27-43
Loveland AN, Chan CK, Brignole EJ, Gibson W (2005) Cleavage of human cytomegalovirus
protease pUL80a at internal and cryptic sites is not essential but enhances infectivity. J Virol
79:12961-12968
Loveland AN, Nguyen NL, Brignole EJ, Gibson W (2007) The amino-conserved domain of
human cytomegalovirus UL80a proteins is required for key interactions during early stages of
capsid formation and virus production. J Virol 81:620-628
Margosiak SA, Vanderpool DL, Sisson W, Pinko C, Kan CC (1996) Dimerization of the human
cytomegalovirus protease - kinetic and biochemical characterization of the catalytic homodimer.
Biochemistry 35:5300-5307
McCartney SA, Brignole EJ, Kolegraff KN, Loveland AN, Ussin LM, Gibson W (2005) Chemical
rescue of I-site cleavage in living cells and in vitro discriminates between the cytomegalovirus
protease, assemblin, and its precursor, pUL80a. J Biol Chem 280:33206-33212
McClelland DA, Aitken JD, Bhella D, McNab D, Mitchell J, Kelly SM, Price NC, Rixon FJ
(2002) pH reduction as a trigger for dissociation of herpes simplex virus type 1 scaffolds.
J Virol 76:7407-7417
Search WWH ::




Custom Search