Physical organization of subgroup B human adenovirus genomes
about
Adenovirus E1A gene autorepression: revertants of an E1A promoter mutation encode altered E1A proteins.Demonstration of three different subtypes of adenovirus type 7 by DNA restriction site mappingReassociation rate limited displacement of DNA strands by branch migrationTargeted deletions of sequences from closed circular DNAComparative sequence analysis of the inverted terminal repetitions from different adenoviruses.Transforming region of group A, B, and C adenoviruses: DNA homology studies with twenty-nine human adenovirus serotypes.Comparison of late mRNA splicing among class B and class C adenoviruses.Transcription map for adenovirus type 12 DNAFunctional diversity of E1A gene autoregulation among human adenoviruses.Autoregulation of adenovirus E1A gene expressionAdenovirus 3 fiber polypeptide gene: implications for the structure of the fiber protein.Isolation and characterization of temperature-sensitive mutants of adenovirus type 7.Polar encapsidation of adenovirus DNA: cloning and DNA sequence of the left end of adenovirus type 3.Transformation of rat cells by cyt mutants of adenovirus type 12 and mutants of adenovirus type 5Early RNA of adenovirus type 3 in permissive and abortive infectionsConserved sequences of the adenovirus genome for detection of all human adenovirus types by hybridizationGenetic heterogeneity of recent isolates of adenovirus types 3, 4, and 7.In vitro association of empty adenovirus capsids with double-stranded DNAComparison of 17 genome types of adenovirus type 3 identified among strains recovered from six continents.Molecular epidemiology and restriction site mapping of adenovirus type 3 genome types.Transformation of primary rat kidney cells by DNA fragments of weakly oncogenic adenoviruses.Mappings of adenovirus type 7 cytoplasmic RNA species synthesized early in lytically infected cells and synthesized in transformed cells.Biochemical studies on bovine adenovirus type 3. III. Cleavage maps of viral DNA by restriction endoncleases EcoRI, BamHI, and HindIII.
P2860
Q34368022-E6F6AB86-B235-4715-A30B-3C9B1C188F6EQ34450839-C11E0D0C-0888-4FF6-9F1C-143983BD1512Q35707551-1AD2CBB6-6F0F-49EB-A1FA-814D3E264346Q36386865-AACCCB68-619F-4804-9E93-B36A0A533F73Q36396216-DA0033D1-D3DB-451E-84FF-6E8F75150575Q36495093-360A2C49-0486-461E-BD2B-C7A313C373EFQ36499401-94E755DF-6005-43E0-9B7C-D5B1473C04E4Q36525199-CAE1CAE6-1A9C-43BA-A638-9908025FF7BFQ36698360-EB29B03E-D93C-445B-BA97-31EF50978BE8Q36859943-A1105712-1A28-434C-A3B7-7F82D16FBC0CQ36898548-0A7397CB-D8D3-492D-BC1E-7438E674FF49Q36919176-EE7802AF-9483-40B8-8573-BE5984BBB143Q36924588-F98E28A5-1830-4B98-A651-49474C2B979CQ36931626-F202A1BB-6F80-4417-BFF9-C333E24770F6Q36934963-2989DC77-DE9E-4B4F-922F-16B7BD2DE2A9Q37123202-640CBF94-9AA5-48C0-B55D-6ABC60849959Q37207125-38BF1E52-0653-4010-B7CB-B0ADE81DE75EQ37601682-98BE038F-7D35-419B-813B-CA10DAEEC476Q40193412-336CCDDD-2C38-474F-AA19-691A3C443831Q40199759-D5A5D383-ECC7-498F-AD0D-0957CAD23B84Q40309126-75B67ED4-7AC8-450C-AE87-D482C91F4AA4Q40624009-A2617C76-DF25-4F47-A2DF-8E44265F9965Q40626837-2894802B-9724-4AD9-AA0F-4909D6C45E03
P2860
Physical organization of subgroup B human adenovirus genomes
description
1977 nî lūn-bûn
@nan
1977年の論文
@ja
1977年学术文章
@wuu
1977年学术文章
@zh-cn
1977年学术文章
@zh-hans
1977年学术文章
@zh-my
1977年学术文章
@zh-sg
1977年學術文章
@yue
1977年學術文章
@zh
1977年學術文章
@zh-hant
name
Physical organization of subgroup B human adenovirus genomes
@en
Physical organization of subgroup B human adenovirus genomes.
@nl
type
label
Physical organization of subgroup B human adenovirus genomes
@en
Physical organization of subgroup B human adenovirus genomes.
@nl
prefLabel
Physical organization of subgroup B human adenovirus genomes
@en
Physical organization of subgroup B human adenovirus genomes.
@nl
P2860
P1433
P1476
Physical organization of subgroup B human adenovirus genomes
@en
P2093
Tibbetts C
P2860
P304
P407
P577
1977-11-01T00:00:00Z