Construction of an excisable bacterial artificial chromosome containing a full-length infectious clone of herpes simplex virus type 1: viruses reconstituted from the clone exhibit wild-type properties in vitro and in vivo.
about
PILRalpha is a herpes simplex virus-1 entry coreceptor that associates with glycoprotein BBack to BAC: the use of infectious clone technologies for viral mutagenesisNew tools to convert bacterial artificial chromosomes to a self-excising design and their application to a herpes simplex virus type 1 infectious clone.Dynamic ubiquitination drives herpesvirus neuroinvasionNuclear egress and envelopment of herpes simplex virus capsids analyzed with dual-color fluorescence HSV1(17+)Anterograde transport of herpes simplex virus capsids in neurons by both separate and married mechanismsThe Us2 gene product of herpes simplex virus 2 is a membrane-associated ubiquitin-interacting proteinAssociation of herpes simplex virus pUL31 with capsid vertices and components of the capsid vertex-specific complex.Flip-Flop HSV-BAC: bacterial artificial chromosome based system for rapid generation of recombinant herpes simplex virus vectors using two independent site-specific recombinases.Visualizing Herpesvirus Procapsids in Living CellsIncorporation of a lambda phage recombination system and EGFP detection to simplify mutagenesis of Herpes simplex virus bacterial artificial chromosomes.The major tegument structural protein VP22 targets areas of dispersed nucleolin and marginalized chromatin during productive herpes simplex virus 1 infection.TRAF6 establishes innate immune responses by activating NF-kappaB and IRF7 upon sensing cytosolic viral RNA and DNA.Effects of phosphorylation of herpes simplex virus 1 envelope glycoprotein B by Us3 kinase in vivo and in vitroRetrograde axon transport of herpes simplex virus and pseudorabies virus: a live-cell comparative analysis.Characterization of the subcellular localization of herpes simplex virus type 1 proteins in living cells.Identification of an essential domain in the herpes simplex virus 1 UL34 protein that is necessary and sufficient to interact with UL31 protein.Role of herpes simplex virus 1 immediate early protein ICP22 in viral nuclear egress.Herpes simplex virus type 1 UL51 protein is involved in maturation and egress of virus particles.Detection of the genome and transcripts of a persistent DNA virus in neuronal tissues by fluorescent in situ hybridization combined with immunostaining.Herpes simplex virus 1 protein UL37 interacts with viral glycoprotein gK and membrane protein UL20 and functions in cytoplasmic virion envelopment.The capsid protein encoded by U(L)17 of herpes simplex virus 1 interacts with tegument protein VP13/14.Resistance of herpes simplex viruses to nucleoside analogues: mechanisms, prevalence, and managementA single-amino-acid substitution in herpes simplex virus 1 envelope glycoprotein B at a site required for binding to the paired immunoglobulin-like type 2 receptor alpha (PILRalpha) abrogates PILRalpha-dependent viral entry and reduces pathogenesisThe UL12 protein of herpes simplex virus 1 is regulated by tyrosine phosphorylationHerpes simplex virus 1-encoded protein kinase UL13 phosphorylates viral Us3 protein kinase and regulates nuclear localization of viral envelopment factors UL34 and UL31The amino terminus of herpes simplex virus 1 glycoprotein K is required for virion entry via the paired immunoglobulin-like type-2 receptor alphaDysregulation of autophagy in murine fibroblasts resistant to HSV-1 infectionA single intramuscular vaccination of mice with the HSV-1 VC2 virus with mutations in the glycoprotein K and the membrane protein UL20 confers full protection against lethal intravaginal challenge with virulent HSV-1 and HSV-2 strains.Resolving the assembly state of herpes simplex virus during axon transport by live-cell imagingHuman herpesvirus 6 major immediate early promoter has strong activity in T cells and is useful for heterologous gene expression.Entry of herpes simplex virus 1 and other alphaherpesviruses via the paired immunoglobulin-like type 2 receptor alpha.Phosphorylation of herpes simplex virus 1 dUTPase regulates viral virulence and genome integrity by compensating for low cellular dUTPase activity in the central nervous systemCharacterization of a UL49-null mutant: VP22 of herpes simplex virus type 1 facilitates viral spread in cultured cells and the mouse corneaRecent advances in cloning herpesviral genomes as infectious bacterial artificial chromosomesRole of the herpes simplex virus 1 Us3 kinase phosphorylation site and endocytosis motifs in the intracellular transport and neurovirulence of envelope glycoprotein B.Telomeric repeat-containing RNA/G-quadruplex-forming sequences cause genome-wide alteration of gene expression in human cancer cells in vivoHerpes simplex virus 1 protein kinase Us3 and major tegument protein UL47 reciprocally regulate their subcellular localization in infected cells.The Engineering of a Novel Ligand in gH Confers to HSV an Expanded Tropism Independent of gD Activation by Its ReceptorsFunction of the Herpes Simplex Virus 1 Small Capsid Protein VP26 Is Regulated by Phosphorylation at a Specific Site.
P2860
Q24313362-9B0F937F-AF21-4FE5-8612-9AC714CDECE9Q26859104-F9F52743-53E0-43F1-82C6-1BC036C64ACBQ27309181-050044FD-E854-4C09-AE5F-F6E43480D22FQ27320095-9A624809-E094-4F12-864A-6A6E40377600Q30441453-AD135113-BF75-4E85-BE21-745A23A84D49Q30501720-D5176B26-39CD-4CA3-9BFE-448EEE462862Q30543691-5315D7DF-0260-4E18-97E1-4658D1536867Q30576518-0DE9F6C7-F745-4BB9-A6A6-5FF43A8D19C7Q30826113-B191254F-8813-4439-9890-5989DCAD8595Q30828374-D33AC00D-9AB4-4DAB-B018-79DE12C0867DQ30831669-D3622C89-71DA-4E80-94E3-B478DF9BD5D5Q33347221-42508C5F-CFEE-4DE2-975F-A9C96BB4B21CQ33455769-5C28F8CC-9377-4E87-9BCD-0FD67C4ABAF5Q33558633-626FAD1E-1725-4C58-833C-BF349EE50F29Q33614404-30D056AE-0473-4085-B6E1-35978D92E900Q33719606-0EA2E3AD-70A9-498F-A4B3-E173D464D202Q33737760-315C2306-A0A5-4E26-8391-38CC1CB691A1Q33744046-4F1F09E3-72E4-4F47-9C91-70ACBB13CAC3Q33788695-B839127F-D67D-4EA1-8885-50EC2F6B2E98Q33872977-457D8852-FD5D-4653-84E3-41A819AC89BAQ33887656-A8DA5730-B286-4229-8B0A-3F298DBB293CQ33964120-8F5B647E-514F-4FD0-9B27-3775F2C4FFF9Q34149904-3E1FB21F-4B85-430A-A00F-517C4118E9C0Q34178357-A7960A4F-C8E0-4E74-993C-84FB101DB3E0Q34262125-FE0ABDEF-F929-462F-B449-A3EC9A998904Q34302174-4972C664-A720-4C38-837D-12DAF79CDCE3Q34321839-CAE920FA-4E6A-4C49-B694-A02A2DF63061Q34382530-BFF11FA2-0003-4050-BA49-151904FB257AQ34414463-98DB57D3-E6DE-4EC2-B330-AA4CDCC26E2BQ34416408-07C3763C-0D07-4C1B-8FB5-C96B4E39247CQ34510455-0E3885F7-D225-460B-AAA5-609FDF6CD9D7Q34952284-111D6C52-A092-46DE-B8E6-D23E8419A7BCQ34992569-1C589026-D3FD-4F4C-8394-B342EB653D1CQ35024102-1B4B030C-B8AA-4C03-B9A3-A3D785D3DC98Q35045319-16D4EC70-8F50-4F58-942B-90A39554161FQ35076725-800A7F93-EBB9-42AE-B654-F6184A749789Q35131119-95EFFB9E-A6ED-49FF-AF11-964554E08D49Q35192686-55D9C209-B334-47AD-B7D6-DFDA98DB74FBQ35638350-A7B51856-99B5-4027-BFC6-FF781C75A435Q35641213-470C48AF-DD92-45DB-A75C-5FF9CC3D6E2C
P2860
Construction of an excisable bacterial artificial chromosome containing a full-length infectious clone of herpes simplex virus type 1: viruses reconstituted from the clone exhibit wild-type properties in vitro and in vivo.
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
name
Construction of an excisable b ...... operties in vitro and in vivo.
@ast
Construction of an excisable b ...... operties in vitro and in vivo.
@en
Construction of an excisable b ...... operties in vitro and in vivo.
@nl
type
label
Construction of an excisable b ...... operties in vitro and in vivo.
@ast
Construction of an excisable b ...... operties in vitro and in vivo.
@en
Construction of an excisable b ...... operties in vitro and in vivo.
@nl
prefLabel
Construction of an excisable b ...... operties in vitro and in vivo.
@ast
Construction of an excisable b ...... operties in vitro and in vivo.
@en
Construction of an excisable b ...... operties in vitro and in vivo.
@nl
P2093
P2860
P1433
P1476
Construction of an excisable b ...... operties in vitro and in vivo.
@en
P2093
Hiroyuki Kagawa
Michiko Tanaka
Yasushi Kawaguchi
Yuji Yamanashi
P2860
P304
P356
10.1128/JVI.77.2.1382-1391.2003
P407
P577
2003-01-01T00:00:00Z