Regulation of adeno-associated virus gene expression in 293 cells: control of mRNA abundance and translation
about
The adeno-associated virus type 2 regulatory proteins rep78 and rep68 interact with the transcriptional coactivator PC4.Analysis of adeno-associated virus (AAV) wild-type and mutant Rep proteins for their abilities to negatively regulate AAV p5 and p19 mRNA levelsAlternate mRNA splicing is required for synthesis of adeno-associated virus VP1 capsid proteinDetermination and analysis of the complete nucleotide sequence of human herpesvirusAdeno-associated viruses can induce phosphorylation of eIF2alpha via PKR activation, which can be overcome by helper adenovirus type 5 virus-associated RNAAdeno-associated virus RNAs appear in a temporal order and their splicing is stimulated during coinfection with adenovirus.Human adeno-associated virus type 5 is only distantly related to other known primate helper-dependent parvoviruses.Negative regulation of the adeno-associated virus (AAV) P5 promoter involves both the P5 rep binding site and the consensus ATP-binding motif of the AAV Rep68 proteinThe adeno-associated virus type 2 Rep protein regulates RNA processing via interaction with the transcription templateCharacterization of the transcription profile of adeno-associated virus type 5 reveals a number of unique features compared to previously characterized adeno-associated virusesAdeno-associated virus: a key to the human genome?Expression profiles of bovine adeno-associated virus and avian adeno-associated virus display significant similarity to that of adeno-associated virus type 5Analysis of recombinant adeno-associated virus packaging and requirements for rep and cap gene products.Cloning of adeno-associated virus type 4 (AAV4) and generation of recombinant AAV4 particles.Encapsidation of adeno-associated virus type 2 Rep proteins in wild-type and recombinant progeny virions: Rep-mediated growth inhibition of primary human cellsThe 3' untranslated region of the B19 parvovirus capsid protein mRNAs inhibits its own mRNA translation in nonpermissive cells.Sequence requirements for stable binding and function of Rep68 on the adeno-associated virus type 2 inverted terminal repeats.Identification of a DNA-binding domain in the amino terminus of adeno-associated virus Rep proteinsAdeno-associated virus Rep protein inhibits human immunodeficiency virus type 1 production in human cells.Sequences required for coordinate induction of adeno-associated virus p19 and p40 promoters by Rep proteinAnalysis of mutations in adeno-associated virus Rep protein in vivo and in vitro.Mutational analysis of the adeno-associated virus rep gene.Adeno-associated virus rep protein synthesis during productive infectionNonstructural protein of parvoviruses B19 and minute virus of mice controls transcription.Mutation of a consensus purine nucleotide binding site in the adeno-associated virus rep gene generates a dominant negative phenotype for DNA replicationExpression from the adeno-associated virus p5 and p19 promoters is negatively regulated in trans by the rep proteinGeneration and characterization of a temperature-sensitive mutation in the NS-1 gene of the autonomous parvovirus minute virus of mice.Identification of cellular proteins that interact with the adeno-associated virus rep proteinIdentification of a Functionally Relevant Adeno-Associated Virus Rep68 Oligomeric InterfaceBirth of a new therapeutic platform: 47 years of adeno-associated virus biology from virus discovery to licensed gene therapy.Adeno-associated virus Rep represses the human integration site promoter by two pathways that are similar to those required for the regulation of the viral p5 promoter.A profusion of controls.Mutational analysis of adeno-associated virus Rep protein-mediated inhibition of heterologous and homologous promotersRole for highly regulated rep gene expression in adeno-associated virus vector production.Control of adeno-associated virus type 2 cap gene expression: relative influence of helper virus, terminal repeats, and Rep proteins.Parvovirus NS1 stimulates P4 expression by interaction with the terminal repeats and through DNA amplification.The adeno-associated virus rep gene suppresses herpes simplex virus-induced DNA amplification.Positive and negative effects of adenovirus type 5 helper functions on adeno-associated virus type 5 (AAV5) protein accumulation govern AAV5 virus production.
P2860
Q22008522-EB014A5F-822E-41B1-9592-1B8971E6F1C0Q24646235-6DEC4E26-DB54-4BDF-A168-029CA312800CQ24651440-917F8AB6-7E84-43AD-B5F2-1610BCDC13C3Q24681462-E44DF14B-BF1D-47F2-8658-947267F676ACQ24681740-C6E385FD-6F87-43FC-8FEF-7C64D456C498Q33603458-1037B75D-91AF-40A6-BF38-3C26CC53A34FQ33640090-9B63380B-45BB-4C9D-8D2C-D155991C0106Q34057580-DDAF1D94-9DD4-4E2F-9C9A-A96B84D07B6BQ34280639-4F5A747F-50AD-44DF-AC34-B25ABDE251C5Q34353746-D8227FF1-90C4-4780-9719-5AA8B02484E9Q34459999-990EBD54-3A94-4D53-B407-551413B678F0Q34648323-F3E45338-98EA-487E-8C49-56D152BFAF93Q35877884-7E65CB9E-F94F-4C4B-9013-885B61422C1FQ35892008-9BCD807A-B9A0-4247-84B8-84F2F6510D1DQ35895272-DFFC8D8C-9016-4A38-BE67-02CBA1F4AF9AQ36548965-5D5DFF81-CCAC-48B2-9714-E62964A1D632Q36637257-221CE1BC-B2A5-4514-801A-49315C109B1CQ36641826-F9E858A0-0B15-46CA-8958-A6C0301A349BQ36688082-1E00DC4B-3366-4A54-8991-48721B8981A4Q36693546-56C6962D-AE5E-4C7F-B2C0-06A095CCED35Q36698702-FD5554F0-5FC7-40EF-ACC5-A430BF7501B7Q36702316-D2571465-CAC6-44A9-B06F-260BBB547325Q36780863-48986A2C-50AE-40A9-BB3D-D0111F431611Q36799605-A206D3AD-71C4-4DC0-AAC1-4558A81AF156Q36804036-9E9B8150-E4A4-45CB-8572-E3BDCAEF7D68Q36831270-FD89A651-88FF-4A4F-809A-D0048F98E089Q36878422-46247805-E406-465A-95B8-60212358E038Q37033220-DB89BA37-F32A-45CA-B9B2-2E8C02E6885EQ37093483-D8681491-3FB8-415C-91A5-633B59963393Q37316887-92DC03C0-1861-4AF5-8732-5E5064C52557Q38994866-152391D8-F963-41B9-A35D-07BCF0D0363DQ39603866-3C2E8FC4-6ED5-4206-BF16-127799EDBA5BQ39871566-26DC1148-7B25-4E0B-BAF8-4BA90B8927C2Q39880225-9814333B-5D4F-4B58-AAB5-40C93AD5B6D5Q39882175-E525251A-416F-4668-A686-6E3EE252A2F2Q40106312-AC2728B1-EFC6-40D2-8777-9C9F5CD96C85Q40109360-9A746CA8-7BB6-4E1C-B9E1-3FDDA63526EEQ40196915-D85DDB5F-536C-4488-829B-FB0FFE0DEE1F
P2860
Regulation of adeno-associated virus gene expression in 293 cells: control of mRNA abundance and translation
description
1988 nî lūn-bûn
@nan
1988 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1988 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
name
Regulation of adeno-associated ...... mRNA abundance and translation
@ast
Regulation of adeno-associated ...... mRNA abundance and translation
@en
Regulation of adeno-associated ...... mRNA abundance and translation
@nl
type
label
Regulation of adeno-associated ...... mRNA abundance and translation
@ast
Regulation of adeno-associated ...... mRNA abundance and translation
@en
Regulation of adeno-associated ...... mRNA abundance and translation
@nl
prefLabel
Regulation of adeno-associated ...... mRNA abundance and translation
@ast
Regulation of adeno-associated ...... mRNA abundance and translation
@en
Regulation of adeno-associated ...... mRNA abundance and translation
@nl
P2860
P3181
P1433
P1476
Regulation of adeno-associated ...... mRNA abundance and translation
@en
P2093
B J Carter
J P Trempe
P2860
P3181
P407
P577
1988-01-01T00:00:00Z