Nucleotide sequence of cloned unintegrated avian sarcoma virus DNA: viral DNA contains direct and inverted repeats similar to those in transposable elements.
about
HIV-1 gene expression: lessons from provirus and non-integrated DNANucleotide sequence of the simian sarcoma virus genome: demonstration that its acquired cellular sequences encode the transforming gene product p28sisHuman genome contains four genes homologous to transforming genes of Harvey and Kirsten murine sarcoma virusesStructure-Based Alignment and Consensus Secondary Structures for Three HIV-Related RNA GenomesUrinary 8-hydroxy-2'-deoxyguanosine as a biological marker of in vivo oxidative DNA damageAvian retrovirus pp32 DNA-binding protein. I. Recognition of specific sequences on retrovirus DNA terminal repeatsRescue of multiple viral functions by a second-site suppressor of a human immunodeficiency virus type 1 nucleocapsid mutation.Characterization of the block in replication of nucleocapsid protein zinc finger mutants from moloney murine leukemia virus.Host and viral determinants for MxB restriction of HIV-1 infection.Comparison of SIV and HIV-1 genomic RNA structures reveals impact of sequence evolution on conserved and non-conserved structural motifs.Isolation of three kinds of human endogenous retrovirus-like sequences using tRNA(Pro) as a probeSpecific nuclear proteins interact with the Rous sarcoma virus internal enhancer and share a common element with the enhancer located in the long terminal repeat of the virus.Retrotransposon suicide: formation of Ty1 circles and autointegration via a central DNA flap.A Rous sarcoma virus provirus is flanked by short direct repeats of a cellular DNA sequence present in only one copy prior to integration.Site-specific nicking at the avian retrovirus LTR circle junction by the viral pp32 DNA endonucleaseA functional component of the sea urchin H2A gene modulator contains an extended sequence homology to a viral enhancerA common mechanism for the enhancement of mRNA 3' processing by U3 sequences in two distantly related lentiviruses.Frequent generation of nonrescuable reorganized Moloney murine sarcoma viral genomes.Proviral deletions and oncogene base-substitutions in insertionally mutagenized c-myc alleles may contribute to the progression of avian bursal tumors.Products of reverse transcription in avian retrovirus analyzed by electron microscopy.Intracisternal A-particle genes as movable elements in the mouse genome.Close relationship between the long terminal repeats of avian leukosis-sarcoma virus and copia-like movable genetic elements of Drosophila.Intramolecular integration within Moloney murine leukemia virus DNA.Long Terminal Repeat Circular DNA as Markers of Active Viral Replication of Human T Lymphotropic Virus-1 in Vivo.The VBP and a1/EBP leucine zipper factors bind overlapping subsets of avian retroviral long terminal repeat CCAAT/enhancer elements.Analysis of mutations in the integration function of Moloney murine leukemia virus: effects on DNA binding and cutting.Rearrangements in unintegrated retroviral DNA are complex and are the result of multiple genetic determinantsTissue-specific lability and expression of avian leukosis virus long terminal repeat enhancer-binding proteins.Circularization of human immunodeficiency virus type 1 DNA in vitro.At least two nuclear proteins bind specifically to the Rous sarcoma virus long terminal repeat enhancerA new pathway in the generation of defective retrovirus DNANuclease mechanism of the avian retrovirus pp32 endonuclease.Characterization of a Rous sarcoma virus mutant defective in packaging its own genomic RNA: biochemical properties of mutant TK15 and mutant-induced transformants.Nucleotide sequence of avian sarcoma virus UR2 and comparison of its transforming gene with other members of the tyrosine protein kinase oncogene family.Deletion in the 3' pol sequence correlates with aberration of RNA expression in certain replication-defective avian sarcoma virusesInsertional activation of c-myc by reticuloendotheliosis virus in chicken B lymphoma: nonrandom distribution and orientation of the provirusesMolecular cloning of the unintegrated squirrel monkey retrovirus genome: organization and distribution of related sequences in primate DNAsEnvelope gene sequence of two in vitro-generated mink cell focus-forming murine leukemia viruses which contain the entire gp70 sequence of the endogenous nonecotropic parent.Evidence for involvement of an RNA primer in initiation of strong-stop plus DNA synthesis during reverse transcription in vitro.5' long terminal repeats of myc-associated proviruses appear structurally intact but are functionally impaired in tumors induced by avian leukosis viruses.
P2860
Q21245215-FC4B17FC-8FC9-4D1C-9230-C8BB1BE921B6Q24601991-908FB1CB-D50A-480A-89C2-811A8A98B210Q24630068-E7FEE939-D909-4105-8282-2694C98CD2BFQ28547355-1337DABB-EA3C-4F81-A183-4C5F3FE9F890Q28645856-E781E5F8-F9A7-4E00-AF97-E77FD8D1FBC1Q30452308-95E33A95-F491-4B66-9A08-53B238EA4E3EQ33803814-33F4064C-8386-47C3-BDCE-0D424E1F7456Q33819451-DE8E78F6-812E-43D2-87CC-8EDECBAD79A7Q34422979-EE572D6C-824E-4164-83FC-AEBACDFE49ECQ34671913-22195059-2D7D-4BC6-9BAA-D362111F3BF9Q34722368-C347D6A1-6B9D-4B6F-990B-E1E7CE76AD86Q34727776-6ABE1AFC-D6E0-461F-98CF-307AC5E4CC69Q35185882-CD7A746E-6CA7-4855-8397-44A2E5F95E05Q35400201-3ACC1E95-2B9C-47FC-ABE2-94DFD5FBFD07Q35559796-2B11CA03-DD5D-4DC7-B730-B7E4DD914990Q35693541-BF60CD21-E206-4055-BE8F-16CC66997EBCQ35856603-F0142C57-6356-45AD-96B8-F8ED95903F7CQ36246371-6AF90E8F-28BF-4249-A3BA-FFC4A991963AQ36254314-EFD885DF-144F-44D2-81AE-DD0E3C960F58Q36590713-019E989B-2604-4C9F-80D7-FF219E015845Q36597311-C0FDB930-BFA3-4B84-8D0A-06351F12BF27Q36597511-E3816851-6B8F-4946-94A1-658025F35AB5Q36606165-022026F3-D7F5-4771-9E9B-076B0869A568Q36735681-3A4678E5-EEBE-43B3-A072-2C094DA64B84Q36739912-EDCA34D3-E654-44EB-A344-EF957393A61DQ36783680-CDA013B8-E99C-4379-B997-B4177069D36BQ36793392-3393079A-3AB7-4C87-851D-526D28DF1716Q36798139-B7630D20-E1EC-4EA8-ADCD-39A4C65D793BQ36828935-5A6F5EEA-6ED2-4861-8BDF-2CAB521A52E0Q36835276-8933521B-CCD3-47F2-B6DC-42A415653FCFQ36854334-89D8FA94-DAA4-4882-B12E-FAD9B40D9C6AQ36863792-42F19576-9FBF-4E55-8D48-24663B1C374FQ36892576-C2075946-91F8-46EB-8F06-D17631807AAFQ36899491-FE30711A-9C25-4C28-9C77-E6459B4057F1Q36901224-13ED462A-20FD-48EA-83C4-9D6827432D84Q36902342-6AEF0847-042F-404A-B2E0-7B35F2D3CD70Q36907715-96D090A6-04D1-4597-B32A-6ED0DC4B0BB8Q36912189-3CC5C993-98A5-4F2F-81E3-DA6C8280010DQ36915573-08582428-BCB2-411F-8CA1-CAE093AA78E7Q36916357-D68728CD-F7A2-4F1E-8844-A26CB152BAD7
P2860
Nucleotide sequence of cloned unintegrated avian sarcoma virus DNA: viral DNA contains direct and inverted repeats similar to those in transposable elements.
description
1981 nî lūn-bûn
@nan
1981 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1981 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1981年の論文
@ja
1981年論文
@yue
1981年論文
@zh-hant
1981年論文
@zh-hk
1981年論文
@zh-mo
1981年論文
@zh-tw
1981年论文
@wuu
name
Nucleotide sequence of cloned ...... hose in transposable elements.
@ast
Nucleotide sequence of cloned ...... hose in transposable elements.
@en
type
label
Nucleotide sequence of cloned ...... hose in transposable elements.
@ast
Nucleotide sequence of cloned ...... hose in transposable elements.
@en
prefLabel
Nucleotide sequence of cloned ...... hose in transposable elements.
@ast
Nucleotide sequence of cloned ...... hose in transposable elements.
@en
P2860
P356
P1476
Nucleotide sequence of cloned ...... hose in transposable elements.
@en
P2093
R Swanstrom
W J DeLorbe
P2860
P304
P356
10.1073/PNAS.78.1.124
P407
P577
1981-01-01T00:00:00Z