Cytomegalovirus pUL 96 Is Critical for the Stability of pp 150-Associated Nucleocapsids ■

[1]  Sanket Shah,et al.  Biochemical and structural characterization of the capsid-bound tegument proteins of human cytomegalovirus. , 2011, Journal of structural biology.

[2]  E. Mocarski,et al.  Cytomegalovirus UL103 Controls Virion and Dense Body Egress , 2011, Journal of Virology.

[3]  P. Walther,et al.  The Tegument Protein UL71 of Human Cytomegalovirus Is Involved in Late Envelopment and Affects Multivesicular Bodies , 2011, Journal of Virology.

[4]  S. Chou,et al.  Human Cytomegalovirus UL97 Kinase and Nonkinase Functions Mediate Viral Cytoplasmic Secondary Envelopment , 2011, Journal of Virology.

[5]  T. Shenk,et al.  Human Cytomegalovirus Tegument Protein pUL71 Is Required for Efficient Virion Egress , 2010, mBio.

[6]  W. Kaiser,et al.  Virus inhibition of RIP3-dependent necrosis. , 2010, Cell host & microbe.

[7]  H. Sticht,et al.  Novel Mode of Phosphorylation-triggered Reorganization of the Nuclear Lamina during Nuclear Egress of Human Cytomegalovirus* , 2010, The Journal of Biological Chemistry.

[8]  W. Britt,et al.  Bicaudal D1-Dependent Trafficking of Human Cytomegalovirus Tegument Protein pp150 in Virus-Infected Cells , 2010, Journal of Virology.

[9]  W. Britt,et al.  HCMV‐Encoded Glycoprotein M (UL100) Interacts with Rab11 Effector Protein FIP4 , 2009, Traffic.

[10]  M. Glass,et al.  Conditional and reversible disruption of essential herpesvirus proteins , 2009, Nature Methods.

[11]  D. Aucoin,et al.  Human Cytomegalovirus Exploits ESCRT Machinery in the Process of Virion Maturation , 2009, Journal of Virology.

[12]  R. Tandon,et al.  Control of Cytoplasmic Maturation Events by Cytomegalovirus Tegument Protein pp150 , 2008, Journal of Virology.

[13]  C. Capanni,et al.  Remodelling of the nuclear lamina during human cytomegalovirus infection: role of the viral proteins pUL50 and pUL53. , 2008, The Journal of general virology.

[14]  山内 洋平 The UL14 tegument protein of herpes simplex virus type 1 is required for efficient nuclear transport of the alpha transinducing factor VP16 and viral capsids , 2008 .

[15]  P. Pellett,et al.  Three-Dimensional Structure of the Human Cytomegalovirus Cytoplasmic Virion Assembly Complex Includes a Reoriented Secretory Apparatus , 2007, Journal of Virology.

[16]  N. Costantino,et al.  Recombineering: Genetic Engineering in Bacteria Using Homologous Recombination , 2003 .

[17]  W. Britt,et al.  Cytoplasmic Envelopment of Human Cytomegalovirus Requires the Postlocalization Function of Tegument Protein pp28 within the Assembly Compartment , 2007, Journal of Virology.

[18]  B. Britt Maturation and egress , 2007 .

[19]  P. Walther,et al.  Cytomegalovirus Primary Envelopment Occurs at Large Infoldings of the Inner Nuclear Membrane , 2006, Journal of Virology.

[20]  L. Banaszynski,et al.  A Rapid, Reversible, and Tunable Method to Regulate Protein Function in Living Cells Using Synthetic Small Molecules , 2006, Cell.

[21]  D. Aucoin,et al.  Betaherpesvirus-Conserved Cytomegalovirus Tegument Protein ppUL32 (pp150) Controls Cytoplasmic Events during Virion Maturation , 2006, Journal of Virology.

[22]  Y. Stierhof,et al.  Human Cytomegalovirus Labeled with Green Fluorescent Protein for Live Analysis of Intracellular Particle Movements , 2005, Journal of Virology.

[23]  M. Winkler,et al.  Human Cytomegalovirus Tegument Protein ppUL35 Is Important for Viral Replication and Particle Formation , 2005, Journal of Virology.

[24]  B. Severi,et al.  Human Cytomegalovirus morphogenesis: an ultrastructural study of the late cytoplasmic phases , 2005, Archives of Virology.

[25]  Richard D. Smith,et al.  Identification of Proteins in Human Cytomegalovirus (HCMV) Particles: the HCMV Proteome , 2004, Journal of Virology.

[26]  V. Štolc,et al.  Functional profiling of a human cytomegalovirus genome , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[27]  T. Shenk,et al.  Functional map of human cytomegalovirus AD169 defined by global mutational analysis , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[28]  W. Britt,et al.  Envelopment of Human Cytomegalovirus Occurs by Budding into Golgi-Derived Vacuole Compartments Positive for gB, Rab 3, Trans-Golgi Network 46, and Mannosidase II , 2003, Journal of Virology.

[29]  D. Coen,et al.  The Human Cytomegalovirus UL97 Protein Kinase, an Antiviral Drug Target, Is Required at the Stage of Nuclear Egress , 2003, Journal of Virology.

[30]  J. Haas,et al.  Cytomegalovirus Recruitment of Cellular Kinases to Dissolve the Nuclear Lamina , 2002, Science.

[31]  I. Macara Transport into and out of the Nucleus , 2001, Microbiology and Molecular Biology Reviews.

[32]  W. Gibson,et al.  Cytomegalovirus Basic Phosphoprotein (pUL32) Binds to Capsids In Vitro through Its Amino One-Third , 2001, Journal of Virology.

[33]  W. Britt,et al.  Accumulation of Virion Tegument and Envelope Proteins in a Stable Cytoplasmic Compartment during Human Cytomegalovirus Replication: Characterization of a Potential Site of Virus Assembly , 2000, Journal of Virology.

[34]  Z. Zhou,et al.  Three-dimensional visualization of tegument/capsid interactions in the intact human cytomegalovirus. , 1999, Virology.

[35]  Alasdair C. Steven,et al.  Capsid Structure of Simian Cytomegalovirus from Cryoelectron Microscopy: Evidence for Tegument Attachment Sites , 1999, Journal of Virology.

[36]  W Gibson,et al.  Structure and assembly of the virion. , 1996, Intervirology.

[37]  G. Hensel,et al.  Nuclear localization of the human cytomegalovirus tegument protein pp150 (ppUL32). , 1995, The Journal of general virology.

[38]  F. Homa,et al.  Assembly of the herpes simplex virus capsid: requirement for the carboxyl-terminal twenty-five amino acids of the proteins encoded by the UL26 and UL26.5 genes , 1995, Journal of virology.

[39]  E. Huang,et al.  Analysis and mapping of a family of 3'-coterminal transcripts containing coding sequences for human cytomegalovirus open reading frames UL93 through UL99 , 1995, Journal of virology.

[40]  J. Tooze,et al.  Progeny vaccinia and human cytomegalovirus particles utilize early endosomal cisternae for their envelopes. , 1993, European journal of cell biology.

[41]  B. Barrell,et al.  Identification of the major capsid protein gene of human cytomegalovirus , 1989, Journal of virology.

[42]  W. Britt,et al.  Identification of a 65 000 dalton virion envelope protein of human cytomegalovirus. , 1985, Virus research.

[43]  W. Gibson,et al.  Isolation of human cytomegalovirus intranuclear capsids, characterization of their protein constituents, and demonstration that the B-capsid assembly protein is also abundant in noninfectious enveloped particles , 1985, Journal of virology.

[44]  W. Gibson,et al.  Isolation and characterization of a noninfectious virion-like particle released from cells infected with human strains of cytomegalovirus. , 1983, Virology.

[45]  W. Gibson Protein counterparts of human and simian cytomegaloviruses. , 1983, Virology.

[46]  W. Gibson Structural and nonstructural proteins of strain Colburn cytomegalovi , 1981 .