A general mechanism for transcriptional synergy by eukaryotic activators.
about
Transcription factor IIA mutations show activator-specific defects and reveal a IIA function distinct from stimulation of TBP-DNA bindingSex reversal by loss of the C-terminal transactivation domain of human SOX9Distinct subdomains of human TAFII130 are required for interactions with glutamine-rich transcriptional activators.TIS7 interacts with the mammalian SIN3 histone deacetylase complex in epithelial cells.p53 Stimulates TFIID-TFIIA-promoter complex assembly, and p53-T antigen complex inhibits TATA binding protein-TATA interactionNeural restrictive silencer factor recruits mSin3 and histone deacetylase complex to repress neuron-specific target genesThree functional classes of transcriptional activation domainTFIID and human mediator coactivator complexes assemble cooperatively on promoter DNAA thermodynamic model of transcriptome formation.A novel mammalian expression system derived from components coordinating nicotine degradation in arthrobacter nicotinovorans pAO1.TATA element recognition by the TATA box-binding protein has been conserved throughout evolutionPositive and negative functions of the SAGA complex mediated through interaction of Spt8 with TBP and the N-terminal domain of TFIIA.Molecular characterization of Saccharomyces cerevisiae TFIID.Intermediates in formation and activity of the RNA polymerase II preinitiation complex: holoenzyme recruitment and a postrecruitment role for the TATA box and TFIIB.Interaction of the equine herpesvirus 1 EICP0 protein with the immediate-early (IE) protein, TFIIB, and TBP may mediate the antagonism between the IE and EICP0 proteinsInteraction of elongation factors TFIIS and elongin A with a human RNA polymerase II holoenzyme capable of promoter-specific initiation and responsive to transcriptional activatorsTranscription factor IIA derepresses TATA-binding protein (TBP)-associated factor inhibition of TBP-DNA bindingThe Oct-1 POU domain activates snRNA gene transcription by contacting a region in the SNAPc largest subunit that bears sequence similarities to the Oct-1 coactivator OBF-1Regions of prostate-specific antigen (PSA) promoter confer androgen-independent expression of PSA in prostate cancer cells.A testis-specific transcription factor IIA (TFIIAtau) stimulates TATA-binding protein-DNA binding and transcription activation.Design and synthesis of a cell-permeable synthetic transcription factor mimic.DNA bending and wrapping around RNA polymerase: a "revolutionary" model describing transcriptional mechanisms.Thermodynamics-based models of transcriptional regulation by enhancers: the roles of synergistic activation, cooperative binding and short-range repression.Mapping and functional characterization of the TAF11 interaction with TFIIA.The yeast TAF145 inhibitory domain and TFIIA competitively bind to TATA-binding proteinActivation of the Epstein-Barr virus transcription factor BZLF1 by 12-O-tetradecanoylphorbol-13-acetate-induced phosphorylation.The Epstein-Barr virus lytic transactivator Zta interacts with the helicase-primase replication proteins.Origin-independent assembly of Kaposi's sarcoma-associated herpesvirus DNA replication compartments in transient cotransfection assays and association with the ORF-K8 protein and cellular PML.Mapping the sequences that mediate interaction of the equine herpesvirus 1 immediate-early protein and human TFIIB.Bicoid cooperative DNA binding is critical for embryonic patterning in Drosophila.Multiple layers of cooperativity regulate enhanceosome-responsive RNA polymerase II transcription complex assembly.Mechanism for specificity by HMG-1 in enhanceosome assemblyAnalysis of core promoter sequences located downstream from the TATA element in the hsp70 promoter from Drosophila melanogaster.TFIIA interacts with TFIID via association with TATA-binding protein and TAF40Role of progesterone in endometrial cancerThe H1 and H2 regions of the activation domain of herpes simplex virion protein 16 stimulate transcription through distinct molecular mechanisms.The TFIIB tip domain couples transcription initiation to events involved in RNA processingFunctional significance of the TATA element major groove in transcription initiation by RNA polymerase IIEfficient induction of nuclear aggresomes by specific single missense mutations in the DNA-binding domain of a viral AP-1 homolog.TFIIA plays a role in the response to oxidative stress.
P2860
Q24310214-D7DFD189-DFB6-4118-9DE0-BB5438F594CEQ24313415-25F2EA21-14C9-4D43-945E-60C68A53B1CAQ24522713-9EB9C0A5-9743-41D1-95AF-FFC3431A2E0FQ24535000-CB2F252D-D00A-4320-BA78-64C3F4C39738Q24550965-12160AC7-1EA8-4CB6-BE96-C8FBF1F7BF9AQ24644926-7B3DD222-3333-4AF2-97C7-F7E763F7F9EBQ24649917-8E78F853-0DCA-444F-87E5-2AFD6ADAA515Q24674080-69DBF7B2-4948-4FC1-A5C5-F0A609611A7DQ24814582-EBE96C1C-8720-41C1-89C2-324DA55AB129Q24816289-E93AAA07-9CF0-4A5C-88D9-DEBA09914367Q27620828-EEB300E6-B478-4181-88D0-A4FEDA084AF1Q27933987-FCC59263-635A-4C40-97F2-0C664803C833Q27934831-48E5EABD-7D7B-406F-88C3-1A5230CD671BQ27940351-5B5887DF-4F5C-4E13-8DC5-B9F71502C4D0Q28115197-A1FEF5DD-2BA9-457C-9E81-7D7A5A205480Q28249621-8E23E625-5F34-4E07-B581-4F947858B07EQ28272088-E643F9F3-70D6-43B8-BBC9-690435038DA3Q28623816-A33297D6-A2F3-48E0-9D1A-D5F775EAC814Q30306146-36CCD60E-FDA1-4467-A1C9-BB3775E501FEQ30829987-7C7E5CAF-C550-4B93-8B1B-ECB7C9E3B064Q33285862-897D1A66-6868-4899-99D6-CF9F66E66AE2Q33652156-B197251B-4DAF-4E03-8B95-970FFF56F123Q33700661-181DA1F2-6E65-4229-B6F7-C0DFA77BAA26Q33713693-64CE5EC6-CE4E-481C-A0A8-D9BF2E11F346Q33771547-94F85855-DDC5-4851-A65E-0B4D34170493Q33784820-4E6735FE-3A47-4440-BBFD-B35A5A142462Q33785198-C4B8DDF7-9187-4905-9405-EBCE887AB845Q33836726-B7E244E2-2E46-4F47-84AE-453BBF6FD4E2Q33847734-238A4565-61D2-4F60-8D7B-DE0EDE0F645FQ33948085-41E993FB-D772-4041-A0F7-D2646F16940DQ33957679-72203515-CFCF-4C54-B73E-BCF3E8B87E23Q33963973-2542FD7F-009E-4246-A4BF-210AD4A9C59FQ33967210-0ED0A06D-C4FC-4853-81E1-000F67227817Q33967253-0002CEE4-78F1-4B48-91B5-1C21C0B714CDQ34095034-3A20DBA6-C5D3-4DA3-84F5-09735E68C967Q34115151-C601B20C-F390-4427-AB60-30E889C6DBE3Q34400749-899B3D40-9B79-437B-A284-138771F7D4ABQ34640455-B0B70E99-C8C4-450C-AA4F-CBF17396D0E3Q34685230-DCB30030-0D00-4252-BB98-B92887C74B18Q34718574-0D588A0D-8137-4FD5-B135-8C1663B6ED8B
P2860
A general mechanism for transcriptional synergy by eukaryotic activators.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh-hant
name
A general mechanism for transcriptional synergy by eukaryotic activators.
@en
A general mechanism for transcriptional synergy by eukaryotic activators.
@nl
type
label
A general mechanism for transcriptional synergy by eukaryotic activators.
@en
A general mechanism for transcriptional synergy by eukaryotic activators.
@nl
prefLabel
A general mechanism for transcriptional synergy by eukaryotic activators.
@en
A general mechanism for transcriptional synergy by eukaryotic activators.
@nl
P2093
P356
P1433
P1476
A general mechanism for transcriptional synergy by eukaryotic activators.
@en
P2093
P2888
P304
P356
10.1038/377254A0
P407
P577
1995-09-01T00:00:00Z
P6179
1023034687