Published in J Virol on May 01, 1983
Trans activation of transcription by herpes virus products: requirement for two HSV-1 immediate-early polypeptides for maximum activity. EMBO J (1984) 7.33
Herpesvirus assembly and egress. J Virol (2002) 6.39
Microtubule-mediated transport of incoming herpes simplex virus 1 capsids to the nucleus. J Cell Biol (1997) 5.66
Activation of the major immediate early gene of human cytomegalovirus by cis-acting elements in the promoter-regulatory sequence and by virus-specific trans-acting components. J Virol (1985) 5.47
Identification of herpes simplex virus type 1 genes required for origin-dependent DNA synthesis. J Virol (1988) 5.11
Regulation of cytomegalovirus gene expression: alpha and beta promoters are trans activated by viral functions in permissive human fibroblasts. J Virol (1985) 4.39
Human cytomegalovirus ie1 transactivates the alpha promoter-enhancer via an 18-base-pair repeat element. J Virol (1989) 4.25
Herpes simplex virus type 1 ICP27 deletion mutants exhibit altered patterns of transcription and are DNA deficient. J Virol (1989) 4.18
Entry of herpes simplex virus 1 in BJ cells that constitutively express viral glycoprotein D is by endocytosis and results in degradation of the virus. J Virol (1988) 4.11
Separation of sequences defining basal expression from those conferring alpha gene recognition within the regulatory domains of herpes simplex virus 1 alpha genes. Proc Natl Acad Sci U S A (1984) 4.05
Binding of the virion protein mediating alpha gene induction in herpes simplex virus 1-infected cells to its cis site requires cellular proteins. Proc Natl Acad Sci U S A (1987) 3.87
The herpes simplex virus 1 gene encoding a protease also contains within its coding domain the gene encoding the more abundant substrate. J Virol (1991) 3.80
Processing of the herpes simplex virus regulatory protein alpha 22 mediated by the UL13 protein kinase determines the accumulation of a subset of alpha and gamma mRNAs and proteins in infected cells. Proc Natl Acad Sci U S A (1993) 3.77
Nucleotide sequence and predicted amino acid sequence of a protein encoded in a small herpes simplex virus DNA fragment capable of trans-inducing alpha genes. Proc Natl Acad Sci U S A (1985) 3.75
Alpha 4, the major regulatory protein of herpes simplex virus type 1, is stably and specifically associated with promoter-regulatory domains of alpha genes and of selected other viral genes. Proc Natl Acad Sci U S A (1986) 3.64
The terminal a sequence of the herpes simplex virus genome contains the promoter of a gene located in the repeat sequences of the L component. J Virol (1986) 3.63
The octamer-binding proteins form multi-protein--DNA complexes with the HSV alpha TIF regulatory protein. EMBO J (1989) 3.42
Transient gene expression control: effects of transfected DNA stability and trans-activation by viral early proteins. Mol Cell Biol (1985) 3.39
A detailed analysis of an HSV-1 early promoter: sequences involved in trans-activation by viral immediate-early gene products are not early-gene specific. Nucleic Acids Res (1984) 3.31
Transcriptional control of herpesvirus gene expression: gene functions required for positive and negative regulation. Proc Natl Acad Sci U S A (1986) 3.28
Construction and characterization of a herpes simplex virus type 1 mutant unable to transinduce immediate-early gene expression. J Virol (1989) 3.19
Physical and functional domains of the herpes simplex virus transcriptional regulatory protein ICP4. J Virol (1988) 3.14
Association of the herpes simplex virus regulatory protein ICP4 with specific nucleotide sequences in DNA. Nucleic Acids Res (1986) 3.09
Molecular biology of pseudorabies virus: impact on neurovirology and veterinary medicine. Microbiol Mol Biol Rev (2005) 3.06
Analysis of DNA sequences which regulate the transcription of a herpes simplex virus immediate early gene. J Virol (1984) 3.03
Expression of recombinant genes containing herpes simplex virus delayed-early and immediate-early regulatory regions and trans activation by herpesvirus infection. J Virol (1984) 3.00
Activities of herpes simplex virus type 1 (HSV-1) ICP4 genes specifying nonsense peptides. Nucleic Acids Res (1987) 2.99
The UL13 gene of herpes simplex virus 1 encodes the functions for posttranslational processing associated with phosphorylation of the regulatory protein alpha 22. Proc Natl Acad Sci U S A (1992) 2.97
Persistence and expression of the herpes simplex virus genome in the absence of immediate-early proteins. J Virol (1998) 2.97
Autoregulation of the human cytomegalovirus major immediate-early gene. J Virol (1985) 2.91
A null mutation in the UL36 gene of herpes simplex virus type 1 results in accumulation of unenveloped DNA-filled capsids in the cytoplasm of infected cells. J Virol (2000) 2.90
Host cell proteins bind to the cis-acting site required for virion-mediated induction of herpes simplex virus 1 alpha genes. Proc Natl Acad Sci U S A (1987) 2.90
The herpes simplex virus 1 RNA binding protein US11 is a virion component and associates with ribosomal 60S subunits. J Virol (1992) 2.88
Herpes simplex virus 1 induces and blocks apoptosis at multiple steps during infection and protects cells from exogenous inducers in a cell-type-dependent manner. Proc Natl Acad Sci U S A (1998) 2.87
DNA-binding site of major regulatory protein alpha 4 specifically associated with promoter-regulatory domains of alpha genes of herpes simplex virus type 1. Proc Natl Acad Sci U S A (1986) 2.85
Regulation of cytomegalovirus late gene expression: gamma genes are controlled by posttranscriptional events. J Virol (1986) 2.84
DNA sequence elements required for regulated expression of the HSV-1 glycoprotein D gene lie within 83 bp of the RNA capsites. Nucleic Acids Res (1983) 2.81
Activation of human immunodeficiency virus by herpesvirus infection: identification of a region within the long terminal repeat that responds to a trans-acting factor encoded by herpes simplex virus 1. Proc Natl Acad Sci U S A (1987) 2.66
Transcriptional control signals of a herpes simplex virus type 1 late (gamma 2) gene lie within bases -34 to +124 relative to the 5' terminus of the mRNA. Mol Cell Biol (1986) 2.65
Herpes simplex virus VP16 forms a complex with the virion host shutoff protein vhs. J Virol (1994) 2.64
The 65,000-Mr DNA-binding and virion trans-inducing proteins of herpes simplex virus type 1. J Virol (1987) 2.63
Varicella-zoster virus gene 63 encodes an immediate-early protein that is abundantly expressed during latency. J Virol (1995) 2.58
Deletion of the VP16 open reading frame of herpes simplex virus type 1. J Virol (1992) 2.50
gamma 2-Thymidine kinase chimeras are identically transcribed but regulated a gamma 2 genes in herpes simplex virus genomes and as beta genes in cell genomes. Mol Cell Biol (1985) 2.44
Cells that constitutively express the herpes simplex virus immediate-early protein ICP4 allow efficient activation of viral delayed-early genes in trans. J Virol (1985) 2.40
Expression of herpes simplex virus ICP0 inhibits the induction of interferon-stimulated genes by viral infection. J Virol (2002) 2.38
Translational control of cytomegalovirus gene expression is mediated by upstream AUG codons. J Virol (1988) 2.35
DNA sequence of the herpes simplex virus type 1 gene whose product is responsible for transcriptional activation of immediate early promoters. Nucleic Acids Res (1985) 2.33
Transcriptional regulation of a herpes simplex virus immediate early gene is mediated through an enhancer-type sequence. EMBO J (1984) 2.29
A novel class of transcripts expressed with late kinetics in the absence of ICP4 spans the junction between the long and short segments of the herpes simplex virus type 1 genome. J Virol (1993) 2.28
Comparison of upstream sequence requirements for positive and negative regulation of a herpes simplex virus immediate-early gene by three virus-encoded trans-acting factors. J Virol (1987) 2.27
Glycoprotein D or J delivered in trans blocks apoptosis in SK-N-SH cells induced by a herpes simplex virus 1 mutant lacking intact genes expressing both glycoproteins. J Virol (2000) 2.26
Herpes simplex virus 1 has multiple mechanisms for blocking virus-induced interferon production. J Virol (2004) 2.24
The herpes simplex virus major regulatory protein ICP4 blocks apoptosis induced by the virus or by hyperthermia. Proc Natl Acad Sci U S A (1996) 2.23
Physical interaction between envelope glycoproteins E and M of pseudorabies virus and the major tegument protein UL49. J Virol (2002) 2.19
Role of herpes simplex virus type 1 UL46 and UL47 in alpha TIF-mediated transcriptional induction: characterization of three viral deletion mutants. J Virol (1991) 2.17
Expression of herpes simplex virus beta and gamma genes integrated in mammalian cells and their induction by an alpha gene product. Mol Cell Biol (1983) 2.15
Evidence that herpes simplex virus VP16 is required for viral egress downstream of the initial envelopment event. J Virol (2000) 2.15
Regulation of varicella-zoster virus gene expression in human T lymphocytes. J Virol (1992) 2.12
The function of herpes simplex virus genes: a primer for genetic engineering of novel vectors. Proc Natl Acad Sci U S A (1996) 2.09
Analysis of DNA sequences which regulate the transcription of herpes simplex virus immediate early gene 3: DNA sequences required for enhancer-like activity and response to trans-activation by a virion polypeptide. Nucleic Acids Res (1986) 2.08
The herpes simplex virus type 1 regulatory protein ICP27 is required for the prevention of apoptosis in infected human cells. J Virol (1999) 2.06
The herpes simplex virus immediate-early protein ICP0 affects transcription from the viral genome and infected-cell survival in the absence of ICP4 and ICP27. J Virol (1997) 2.06
Characterization of the protease and other products of amino-terminus-proximal cleavage of the herpes simplex virus 1 UL26 protein. J Virol (1993) 2.04
Herpes simplex virus VP16 rescues viral mRNA from destruction by the virion host shutoff function. EMBO J (1996) 1.99
Herpes simplex virus type 1 UL46 and UL47 deletion mutants lack VP11 and VP12 or VP13 and VP14, respectively, and exhibit altered viral thymidine kinase expression. J Virol (1993) 1.99
A cellular factor binds to the herpes simplex virus type 1 transactivator Vmw65 and is required for Vmw65-dependent protein-DNA complex assembly with Oct-1. Mol Cell Biol (1990) 1.98
The UL48 tegument protein of pseudorabies virus is critical for intracytoplasmic assembly of infectious virions. J Virol (2002) 1.97
Differentiation of multiple domains in the herpes simplex virus 1 protease encoded by the UL26 gene. Proc Natl Acad Sci U S A (1992) 1.97
Herpes simplex virus immediate-early promoters are responsive to virus and cell trans-acting factors. J Virol (1987) 1.96
Herpes simplex viruses with mutations in the gene encoding ICP0 are defective in gene expression. J Virol (1992) 1.92
Construction and properties of a cell line constitutively expressing the herpes simplex virus glycoprotein B dependent on functional alpha 4 protein synthesis. J Virol (1986) 1.89
Negative and positive regulation by a short segment in the 5'-flanking region of the human cytomegalovirus major immediate-early gene. Mol Cell Biol (1987) 1.88
Entry of pseudorabies virus: an immunogold-labeling study. J Virol (2005) 1.87
Characterization of a cellular factor which interacts functionally with Oct-1 in the assembly of a multicomponent transcription complex. Nucleic Acids Res (1990) 1.85
A null mutation in the gene encoding the herpes simplex virus type 1 UL37 polypeptide abrogates virus maturation. J Virol (2001) 1.84
Antigenic specificities of human CD4+ T-cell clones recovered from recurrent genital herpes simplex virus type 2 lesions. J Virol (1994) 1.83
Identification of the gene encoding the 65-kilodalton DNA-binding protein of herpes simplex virus type 1. J Virol (1988) 1.81
Cell lines containing varicella-zoster virus open reading frame 62 and expressing the "IE" 175 protein complement ICP4 mutants of herpes simplex virus type 1. J Virol (1988) 1.78
Association of ICP0 but not ICP27 with purified virions of herpes simplex virus type 1. J Virol (1992) 1.76
Vaccinia virus gene encoding a component of the viral early transcription factor. J Virol (1990) 1.75
A modular system for the assay of transcription regulatory signals: the sequence TAATGARAT is required for herpes simplex virus immediate early gene activation. Nucleic Acids Res (1985) 1.75
Essential function of the pseudorabies virus UL36 gene product is independent of its interaction with the UL37 protein. J Virol (2004) 1.73
Varicella-zoster virus open reading frame 10 protein, the herpes simplex virus VP16 homolog, transactivates herpesvirus immediate-early gene promoters. J Virol (1993) 1.71
Regulation of the herpes simplex virus type 1 late (gamma 2) glycoprotein C gene: sequences between base pairs -34 to +29 control transient expression and responsiveness to transactivation by the products of the immediate early (alpha) 4 and 0 genes. Nucleic Acids Res (1987) 1.68
Differentiation and DNA contact points of host proteins binding at the cis site for virion-mediated induction of alpha genes of herpes simplex virus 1. J Virol (1988) 1.68
Cooperativity among herpes simplex virus type 1 immediate-early regulatory proteins: ICP4 and ICP27 affect the intracellular localization of ICP0. J Virol (1994) 1.66
Herpes simplex virus 1 blocks caspase-3-independent and caspase-dependent pathways to cell death. J Virol (1999) 1.64
Induction and prevention of apoptosis in human HEp-2 cells by herpes simplex virus type 1. J Virol (1999) 1.64
The regulation of synthesis and properties of the protein product of open reading frame P of the herpes simplex virus 1 genome. J Virol (1995) 1.63
Mapping of functional and antigenic domains of the alpha 4 protein of herpes simplex virus 1. J Virol (1988) 1.63
Association of herpes simplex virus regulatory protein ICP4 with sequences spanning the ICP4 gene transcription initiation site. Nucleic Acids Res (1988) 1.60
A major transactivator of varicella-zoster virus, the immediate-early protein IE62, contains a potent N-terminal activation domain. J Virol (1993) 1.59
Differential regulation of endogenous and transduced beta-globin genes during infection of erythroid cells with a herpes simplex virus type 1 recombinant. J Virol (1990) 1.58
Characterization of herpes simplex virus strains differing in their effects on social behaviour of infected cells. J Gen Virol (1968) 26.67
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Regulation of alpha genes of herpes simplex virus: expression of chimeric genes produced by fusion of thymidine kinase with alpha gene promoters. Cell (1981) 11.62
Regulation of herpesvirus macromolecular synthesis: sequential transition of polypeptide synthesis requires functional viral polypeptides. Proc Natl Acad Sci U S A (1975) 11.52
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Fine-structure mapping and functional analysis of temperature-sensitive mutants in the gene encoding the herpes simplex virus type 1 immediate early protein VP175. J Virol (1980) 9.30
A herpes simplex virus type 1 function continuously required for early and late virus RNA synthesis. Nature (1980) 8.47
Preparation of herpes simplex virus of high titer. J Virol (1968) 7.64
Structural features of the herpes simplex virus alpha gene 4, 0, and 27 promoter-regulatory sequences which confer alpha regulation on chimeric thymidine kinase genes. J Virol (1982) 7.35
Physical mapping of herpes simplex virus-induced polypeptides. J Virol (1978) 6.08
Anatomy of herpes simplex virus DNA. IX. Apparent exclusion of some parental DNA arrangements in the generation of intertypic (HSV-1 X HSV-2) recombinants. J Virol (1977) 5.98
Differentiation between alpha promoter and regulator regions of herpes simplex virus 1: the functional domains and sequence of a movable alpha regulator. Proc Natl Acad Sci U S A (1982) 4.84
Regulation of herpesvirus macromolecular synthesis: transcription-initiation sites and domains of alpha genes. Proc Natl Acad Sci U S A (1980) 4.75
Molecular genetics of herpes simplex virus: demonstration of regions of obligatory and nonobligatory identity within diploid regions of the genome by sequence replacement and insertion. Proc Natl Acad Sci U S A (1978) 4.31
Herpes simplex virus gene expression in transformed cells. I. Regulation of the viral thymidine kinase gene in transformed L cells by products of superinfecting virus. J Virol (1976) 3.94
Evidence that herpes simplex virus DNA is transcribed by cellular RNA polymerase B. J Virol (1977) 3.82
Suppression of the synthesis of cellular macromolecules by herpes simplex virus. J Gen Virol (1978) 3.57
Herpes simplex virus phosphoproteins. II. Characterization of the virion protein kinase and of the polypeptides phosphorylated in the virion. J Virol (1980) 3.31
Regulation of alpha genes of herpes simplex virus: the alpha 27 gene promoter-thymidine kinase chimera is positively regulated in converted L cells. J Virol (1982) 3.28
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Selective assay for herpes simplex viruses expressing thymidine kinase. J Virol (1979) 2.03
Thymidine kinase activity of biochemically transformed mouse cells after superinfection by thymidine kinase-negative, temperature-sensitive, herpes simplex virus mutants. Virology (1978) 1.98
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Anatomy of bovine mammillitis DNA. I Restriction endonuclease maps of four populations of molecules that differ in the relative orientation of their long and short components. J Virol (1978) 1.26
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Characterization of herpes simplex virus strains differing in their effects on social behaviour of infected cells. J Gen Virol (1968) 26.67
Regulation of herpesvirus macromolecular synthesis. I. Cascade regulation of the synthesis of three groups of viral proteins. J Virol (1974) 26.25
Proteins specified by herpes simplex virus. V. Purification and structural proteins of the herpesvirion. J Virol (1972) 17.28
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Proteins specified by herpes simplex virus. XII. The virion polypeptides of type 1 strains. J Virol (1974) 16.33
Proteins specified by herpes simplex virus. XI. Identification and relative molar rates of synthesis of structural and nonstructural herpes virus polypeptides in the infected cell. J Virol (1973) 12.48
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Regulation of alpha genes of herpes simplex virus: expression of chimeric genes produced by fusion of thymidine kinase with alpha gene promoters. Cell (1981) 11.62
Regulation of herpesvirus macromolecular synthesis: sequential transition of polypeptide synthesis requires functional viral polypeptides. Proc Natl Acad Sci U S A (1975) 11.52
Anatomy of herpes simplex virus (HSV) DNA. X. Mapping of viral genes by analysis of polypeptides and functions specified by HSV-1 X HSV-2 recombinants. J Virol (1978) 11.19
Anatomy of herpes simplex virus DNA: evidence for four populations of molecules that differ in the relative orientations of their long and short components. Proc Natl Acad Sci U S A (1975) 10.59
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A generalized technique for deletion of specific genes in large genomes: alpha gene 22 of herpes simplex virus 1 is not essential for growth. Cell (1981) 8.56
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Molecular genetics of herpes simplex virus. II. Mapping of the major viral glycoproteins and of the genetic loci specifying the social behavior of infected cells. J Virol (1979) 8.05
Preparation of herpes simplex virus of high titer. J Virol (1968) 7.64
Structural features of the herpes simplex virus alpha gene 4, 0, and 27 promoter-regulatory sequences which confer alpha regulation on chimeric thymidine kinase genes. J Virol (1982) 7.35
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The gamma(1)34.5 protein of herpes simplex virus 1 complexes with protein phosphatase 1alpha to dephosphorylate the alpha subunit of the eukaryotic translation initiation factor 2 and preclude the shutoff of protein synthesis by double-stranded RNA-activated protein kinase. Proc Natl Acad Sci U S A (1997) 6.08
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The gamma 1(34.5) gene of herpes simplex virus 1 precludes neuroblastoma cells from triggering total shutoff of protein synthesis characteristic of programed cell death in neuronal cells. Proc Natl Acad Sci U S A (1992) 4.90
Differentiation between alpha promoter and regulator regions of herpes simplex virus 1: the functional domains and sequence of a movable alpha regulator. Proc Natl Acad Sci U S A (1982) 4.84
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Molecular genetics of herpes simplex virus: demonstration of regions of obligatory and nonobligatory identity within diploid regions of the genome by sequence replacement and insertion. Proc Natl Acad Sci U S A (1978) 4.31
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Entry of herpes simplex virus 1 in BJ cells that constitutively express viral glycoprotein D is by endocytosis and results in degradation of the virus. J Virol (1988) 4.11
Separation of sequences defining basal expression from those conferring alpha gene recognition within the regulatory domains of herpes simplex virus 1 alpha genes. Proc Natl Acad Sci U S A (1984) 4.05
The promoter, transcriptional unit, and coding sequence of herpes simplex virus 1 family 35 proteins are contained within and in frame with the UL26 open reading frame. J Virol (1991) 4.01
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Binding of the virion protein mediating alpha gene induction in herpes simplex virus 1-infected cells to its cis site requires cellular proteins. Proc Natl Acad Sci U S A (1987) 3.87
The herpes simplex virus 1 gene encoding a protease also contains within its coding domain the gene encoding the more abundant substrate. J Virol (1991) 3.80
Processing of the herpes simplex virus regulatory protein alpha 22 mediated by the UL13 protein kinase determines the accumulation of a subset of alpha and gamma mRNAs and proteins in infected cells. Proc Natl Acad Sci U S A (1993) 3.77
Nucleotide sequence and predicted amino acid sequence of a protein encoded in a small herpes simplex virus DNA fragment capable of trans-inducing alpha genes. Proc Natl Acad Sci U S A (1985) 3.75
Association of a M(r) 90,000 phosphoprotein with protein kinase PKR in cells exhibiting enhanced phosphorylation of translation initiation factor eIF-2 alpha and premature shutoff of protein synthesis after infection with gamma 134.5- mutants of herpes simplex virus 1. Proc Natl Acad Sci U S A (1995) 3.68
Anatomy of the herpes simplex virus 1 strain F glycoprotein B gene: primary sequence and predicted protein structure of the wild type and of monoclonal antibody-resistant mutants. J Virol (1985) 3.67
Alpha 4, the major regulatory protein of herpes simplex virus type 1, is stably and specifically associated with promoter-regulatory domains of alpha genes and of selected other viral genes. Proc Natl Acad Sci U S A (1986) 3.64
The terminal a sequence of the herpes simplex virus genome contains the promoter of a gene located in the repeat sequences of the L component. J Virol (1986) 3.63
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Development of a high-throughput quantitative assay for detecting herpes simplex virus DNA in clinical samples. J Clin Microbiol (1999) 3.48
Clustering of genes dispensable for growth in culture in the S component of the HSV-1 genome. Science (1987) 3.45
Site-specific inversion sequence of the herpes simplex virus genome: domain and structural features. Proc Natl Acad Sci U S A (1981) 3.45
Herpesvirus-dependent amplification and inversion of cell-associated viral thymidine kinase gene flanked by viral a sequences and linked to an origin of viral DNA replication. Proc Natl Acad Sci U S A (1982) 3.44
Herpes simplex virus phosphoproteins. II. Characterization of the virion protein kinase and of the polypeptides phosphorylated in the virion. J Virol (1980) 3.31
Regulation of alpha genes of herpes simplex virus: the alpha 27 gene promoter-thymidine kinase chimera is positively regulated in converted L cells. J Virol (1982) 3.28
The herpes simplex virus 1 gene for ICP34.5, which maps in inverted repeats, is conserved in several limited-passage isolates but not in strain 17syn+. J Virol (1990) 3.16
The open reading frames UL3, UL4, UL10, and UL16 are dispensable for the replication of herpes simplex virus 1 in cell culture. J Virol (1991) 3.13
Herpes simplex virus 1 protein kinase is encoded by open reading frame US3 which is not essential for virus growth in cell culture. J Virol (1987) 3.09
The herpes simplex virus 1 protein kinase encoded by the US3 gene mediates posttranslational modification of the phosphoprotein encoded by the UL34 gene. J Virol (1991) 3.06
The UL20 gene of herpes simplex virus 1 encodes a function necessary for viral egress. J Virol (1991) 3.04
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The UL13 gene of herpes simplex virus 1 encodes the functions for posttranslational processing associated with phosphorylation of the regulatory protein alpha 22. Proc Natl Acad Sci U S A (1992) 2.97
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Herpes simplex virus 1 gamma(1)34.5 gene function, which blocks the host response to infection, maps in the homologous domain of the genes expressed during growth arrest and DNA damage. Proc Natl Acad Sci U S A (1994) 2.94
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Host cell proteins bind to the cis-acting site required for virion-mediated induction of herpes simplex virus 1 alpha genes. Proc Natl Acad Sci U S A (1987) 2.90
The herpes simplex virus 1 RNA binding protein US11 is a virion component and associates with ribosomal 60S subunits. J Virol (1992) 2.88
Herpes simplex virus 1 induces and blocks apoptosis at multiple steps during infection and protects cells from exogenous inducers in a cell-type-dependent manner. Proc Natl Acad Sci U S A (1998) 2.87
Separation of the herpesvirus deoxyribonucleic acid duplex into unique fragments and intact strand on sedimentation in alkaline gradients. J Virol (1972) 2.87
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DNA-binding site of major regulatory protein alpha 4 specifically associated with promoter-regulatory domains of alpha genes of herpes simplex virus type 1. Proc Natl Acad Sci U S A (1986) 2.85
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