Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
about
Molecular genetics of herpes simplex virus: the terminal a sequences of the L and S components are obligatorily identical and constitute a part of a structural gene mapping predominantly in the S component.Electron microscopic mapping of proteins bound to herpes simplex virus DNA.Appearance in vivo of single-stranded complementary ends on parental herpesvirus DNA.Herpes simplex virus type 1 HindIII fragment L encodes spliced and complementary mRNA species.Circularization and cleavage of guinea pig cytomegalovirus genomesA model for replication of the ends of linear chromosomes.Site-specific cleavage/packaging of herpes simplex virus DNA and the selective maturation of nucleocapsids containing full-length viral DNA.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.Site-specific inversion sequence of the herpes simplex virus genome: domain and structural features.Cloning of reiterated and nonreiterated herpes simplex virus 1 sequences as BamHI fragmentsAnatomy of herpes simplex virus DNA. XII. Accumulation of head-to-tail concatemers in nuclei of infected cells and their role in the generation of the four isomeric arrangements of viral DNABamI, KpnI, and SalI restriction enzyme maps of the DNAs of herpes simplex virus strains Justin and F: occurrence of heterogeneities in defined regions of the viral DNA.Anatomy of herpes simplex virus DNA VII. alpha-RNA is homologous to noncontiguous sites in both the L and S components of viral DNA.Anatomy of bovine mammillitis DNA II. Size and arrangements of the deoxynucleotide sequencesStructure of the joint region and the termini of the DNA of herpes simplex virus type 1.Herpes simplex virus DNA in transformed cells: sequence complexity in five hamster cell lines and one derived hamster tumorAnatomy of herpes simplex virus DNA. VI. Defective DNA originates from the S componentCharacterization of a herpes simplex virus sequence which binds a cellular protein as either a single-stranded or double-stranded DNA or RNA.Enhanced rate of conversion or recombination of markers within a region of unique sequence in the herpes simplex virus genome.Herpes simplex virus cloned DNA fragments induce coumermycin A1 resistance in Escherichia coliCharacterization of the guinea pig cytomegalovirus genome by molecular cloning and physical mapping.The alpha sequence of the cytomegalovirus genome functions as a cleavage/packaging signal for herpes simplex virus defective genomes.The herpes simplex virus origins of DNA synthesis in the S component are each contained in a transcribed open reading frame.Structure and expression of class II defective herpes simplex virus genomes encoding infected cell polypeptide number 8.Anatomy of herpes simplex virus DNA VIII. Properties of the replicating DNA.DNA of Epstein-Barr virus. II. Comparison of the molecular weights of restriction endonuclease fragments of the DNA of Epstein-Barr virus strains and identification of end fragments of the B95-8 strain.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.Physical map of the origin of defective DNA in herpes simplex virus type 1 DNA.Epstein-Barr virus BALF3 has nuclease activity and mediates mature virion production during the lytic cycle.Analysis of herpes simplex virus type 1 DNA packaging signal mutations in the context of the viral genome.Physical maps for Herpes simplex virus type 1 DNA for restriction endonucleases Hind III, Hpa-1, and X. bad.Herpes simplex virus type 1 Angelotti and a defective viral genotype: analysis of genome structures and genetic relatedness by DNA-DNA reassociation kinetics.Origin of two different classes of defective HSV-1 Angelotti DNA.The nucleotide sequence of the 5' terminus of vesicular stomatitis virus RNA.A 3' co-terminal family of mRNAs from the herpes simplex virus type 1 short region: two overlapping reading frames encode unrelated polypeptide one of which has highly reiterated amino acid sequence.Fragments from both termini of the herpes simplex virus type 1 genome contain signals required for the encapsidation of viral DNA.Co-opting the Fanconi anemia genomic stability pathway enables herpesvirus DNA synthesis and productive growth
P2860
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P2860
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
description
1976 nî lūn-bûn
@nan
1976 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1976 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1976年の論文
@ja
1976年論文
@yue
1976年論文
@zh-hant
1976年論文
@zh-hk
1976年論文
@zh-mo
1976年論文
@zh-tw
1976年论文
@wuu
name
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@ast
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@en
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@nl
type
label
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@ast
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@en
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@nl
prefLabel
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@ast
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@en
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@nl
P2860
P1433
P1476
Anatomy of herpes simplex virus DNA. V. Terminally repetitive sequences.
@en
P2093
Hayward GS
Wadsworth S
P2860
P304
P577
1976-02-01T00:00:00Z