| Q42280074 | A TAF4 coactivator function for E proteins that involves enhanced TFIID binding |
| Q42514084 | A heterochromatin-dependent transcription machinery drives piRNA expression. |
| Q30829987 | A testis-specific transcription factor IIA (TFIIAtau) stimulates TATA-binding protein-DNA binding and transcription activation |
| Q50983487 | A transcription factor IIA-binding site differentially regulates RNA polymerase II-mediated transcription in a promoter context-dependent manner. |
| Q35881137 | Alteration of a single serine in the basic domain of the Epstein-Barr virus ZEBRA protein separates its functions of transcriptional activation and disruption of latency |
| Q27938223 | An activator target in the RNA polymerase II holoenzyme |
| Q24657618 | An interplay between TATA box-binding protein and transcription factors IIE and IIA modulates DNA binding and transcription |
| Q27937697 | Analysis of TFIIA function In vivo: evidence for a role in TATA-binding protein recruitment and gene-specific activation |
| Q39583813 | Association of transcription factor IIA with TATA binding protein is required for transcriptional activation of a subset of promoters and cell cycle progression in Saccharomyces cerevisiae |
| Q35660192 | Barrier-to-Autointegration Factor 1 (BAF/BANF1) Promotes Association of the SETD1A Histone Methyltransferase with Herpes Simplex Virus Immediate-Early Gene Promoters |
| Q47977731 | Characterization and functional analysis of Arabidopsis TFIIA reveal that the evolutionarily unconserved region of the large subunit has a transcription activation domain. |
| Q24314747 | Cloning and biochemical characterization of TAF-172, a human homolog of yeast Mot1. |
| Q33714149 | Common effects of acidic activators on large-scale chromatin structure and transcription |
| Q28145475 | Control of gene expression through regulation of the TATA-binding protein |
| Q39445508 | Corepressor required for adenovirus E1B 55,000-molecular-weight protein repression of basal transcription |
| Q39575245 | DA-complex assembly activity required for VP16C transcriptional activation |
| Q40551612 | Differential cellular requirements for activation of herpes simplex virus type 1 early (tk) and late (gC) promoters by ICP4. |
| Q28115255 | Direct interaction of TFIIB and the IE protein of equine herpesvirus 1 is required for maximal trans-activation function |
| Q30313329 | Dissection of TALE-dependent gene activation reveals that they induce transcription cooperatively and in both orientations |
| Q64907692 | Distinct requirements of linker DNA and transcriptional activators in promoting SAGA-mediated nucleosome acetylation. |
| Q77785134 | EHV-1 EICP22 protein sequences that mediate its physical interaction with the immediate-early protein are not sufficient to enhance the trans-activation activity of the IE protein |
| Q42411044 | Effective formation of the segregation-competent complex determines successful partitioning of the bovine papillomavirus genome during cell division |
| Q28296028 | Efficient Binding of NC2⋅TATA-binding Protein to DNA in the Absence of TATA |
| Q36424417 | Epstein-Barr virus immunossuppression of innate immunity mediated by phagocytes |
| Q45983312 | Eukaryotic transcription: the core of eukaryotic gene activation. |
| Q34640455 | Functional significance of the TATA element major groove in transcription initiation by RNA polymerase II |
| Q50446313 | HEMERA Couples the Proteolysis and Transcriptional Activity of PHYTOCHROME INTERACTING FACTORs in Arabidopsis Photomorphogenesis. |
| Q33812313 | Herpes simplex virus type 1 ICP4 promotes transcription preinitiation complex formation by enhancing the binding of TFIID to DNA |
| Q26745059 | Herpesvirus Late Gene Expression: A Viral-Specific Pre-initiation Complex Is Key |
| Q41740213 | Hormone response units: one plus one equals more than two. |
| Q24644626 | Human TATA-binding protein-related factor-2 (hTRF2) stably associates with hTFIIA in HeLa cells |
| Q35818739 | Identification of Promising Mutants Associated with Egg Production Traits Revealed by Genome-Wide Association Study. |
| Q33690825 | Identification of candidate epigenetic biomarkers for ovarian cancer detection |
| Q52566722 | Identification of highly conserved amino-terminal segments of dTAFII230 and yTAFII145 that are functionally interchangeable for inhibiting TBP-DNA interactions in vitro and in promoting yeast cell growth in vivo. |
| Q36048657 | Importance of acidic, proline/serine/threonine-rich, and GTP-binding regions in the major histocompatibility complex class II transactivator: generation of transdominant-negative mutants |
| Q75231689 | Interaction of Gal4p with components of transcription machinery in vivo |
| Q28249621 | Interaction of elongation factors TFIIS and elongin A with a human RNA polymerase II holoenzyme capable of promoter-specific initiation and responsive to transcriptional activators |
| Q36561858 | Interaction of the human T-cell lymphotropic virus type 1 tax transactivator with transcription factor IIA |
| Q28539189 | Interaction studies of the human and Arabidopsis thaliana Med25-ACID proteins with the herpes simplex virus VP16- and plant-specific Dreb2a transcription factors |
| Q41361177 | Interactions of a DNA-bound transcriptional activator with the TBP-TFIIA-TFIIB-promoter quaternary complex |
| Q33713693 | Mapping and functional characterization of the TAF11 interaction with TFIIA. |
| Q33847734 | Mapping the sequences that mediate interaction of the equine herpesvirus 1 immediate-early protein and human TFIIB. |
| Q40443665 | Mechanism of synergy between TATA and initiator: synergistic binding of TFIID following a putative TFIIA-induced isomerization |
| Q54102655 | Mechanism of transcriptional repression of E2F by the retinoblastoma tumor suppressor protein. |
| Q41066911 | Mechanisms of transcription complex assembly |
| Q40022625 | Molecular architecture of the hsp70 promoter after deletion of the TATA box or the upstream regulation region |
| Q29620260 | Molecular genetics of the RNA polymerase II general transcriptional machinery |
| Q22122454 | Multi-protein complexes in eukaryotic gene transcription |
| Q24533544 | Multiple roles for the MyoD basic region in transmission of transcriptional activation signals and interaction with MEF2 |
| Q27642025 | Novel interactions between the components of human and yeast TFIIA/TBP/DNA complexes |
| Q42002467 | Nucleosome structure of the yeast CHA1 promoter: analysis of activation-dependent chromatin remodeling of an RNA-polymerase-II-transcribed gene in TBP and RNA pol II mutants defective in vivo in response to acidic activators. |
| Q39445227 | Phosphorylation of TFIIA stimulates TATA binding protein-TATA interaction and contributes to maximal transcription and viability in yeast |
| Q39574692 | Polymerase (Pol) III TATA box-binding protein (TBP)-associated factor Brf binds to a surface on TBP also required for activated Pol II transcription |
| Q36573810 | Promoter activity of Tat at steps subsequent to TATA-binding protein recruitment |
| Q45970861 | Protease footprinting analysis of ternary complex formation by human TFIIA. |
| Q35586902 | Proteomic analysis of the herpes simplex virus 1 virion protein 16 transactivator protein in infected cells |
| Q41477041 | RNA polymerase II holoenzyme and transcriptional regulation |
| Q40023879 | Requirement for transcription factor IIA (TFIIA)-TFIID recruitment by an activator depends on promoter structure and template competition |
| Q34552116 | Role of TAF4 in transcriptional activation by Rta of Epstein-Barr Virus |
| Q37531957 | Separation of the transcriptional coactivator and antirepression functions of transcription factor IIA |
| Q36652659 | Slow dimer dissociation of the TATA binding protein dictates the kinetics of DNA binding |
| Q42834860 | Specific interaction with transcription factor IIA and localization of the mammalian TATA-binding protein-like protein (TLP/TRF2/TLF). |
| Q41817706 | Stabilized binding of TBP to the TATA box of herpes simplex virus type 1 early (tk) and late (gC) promoters by TFIIA and ICP4. |
| Q39583958 | Stepwise recruitment of components of the preinitiation complex by upstream activators in vivo |
| Q34087181 | Structural and functional interactions of transcription factor (TF) IIA with TFIIE and TFIIF in transcription initiation by RNA polymerase II. |
| Q24653925 | Structural changes in TAF4b-TFIID correlate with promoter selectivity |
| Q27666881 | Structure and VP16 binding of the Mediator Med25 activator interaction domain |
| Q37853081 | Structure and functions of powerful transactivators: VP16, MyoD and FoxA. |
| Q42459088 | TAFII-independent activation mediated by human TBP in the presence of the positive cofactor PC4 |
| Q64377584 | TFIIA abrogates the effects of inhibition by HMGB1 but not E1A during the early stages of assembly of the transcriptional preinitiation complex |
| Q38313033 | TFIIA has activator-dependent and core promoter functions in vivo |
| Q33967253 | TFIIA interacts with TFIID via association with TATA-binding protein and TAF40 |
| Q34718574 | TFIIA plays a role in the response to oxidative stress |
| Q73075615 | TFIIA regulates TBP and TFIID dimers |
| Q47677143 | TFIIA transcriptional activity is controlled by a 'cleave-and-run' Exportin-1/Taspase 1-switch. |
| Q39900716 | TFIIB recognition elements control the TFIIA-NC2 axis in transcriptional regulation |
| Q39752283 | TFIIB-facilitated recruitment of preinitiation complexes by a TAF-independent mechanism |
| Q52020747 | Testifying the rice bacterial blight resistance gene xa5 by genetic complementation and further analyzing xa5 (Xa5) in comparison with its homolog TFIIAgamma1. |
| Q34115151 | The H1 and H2 regions of the activation domain of herpes simplex virion protein 16 stimulate transcription through distinct molecular mechanisms |
| Q28623816 | The 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-1 |
| Q35889925 | The VP16 paradox: herpes simplex virus VP16 contains a long-range activation domain but within the natural multiprotein complex activates only from promoter-proximal positions |
| Q39444671 | The amino-terminal C/H1 domain of CREB binding protein mediates zta transcriptional activation of latent Epstein-Barr virus |
| Q35201509 | The mammalian transcriptional repressor RBP (CBF1) targets TFIID and TFIIA to prevent activated transcription |
| Q40985245 | The position of the ZEBRA activation domain does not influence its biological activity |
| Q74009630 | The stability of the TFIIA-TBP-DNA complex is dependent on the sequence of the TATAAA element |
| Q84767361 | Transcription activator-like type III effector AvrXa27 depends on OsTFIIAgamma5 for the activation of Xa27 transcription in rice that triggers disease resistance to Xanthomonas oryzae pv. oryzae |
| Q28272088 | Transcription factor IIA derepresses TATA-binding protein (TBP)-associated factor inhibition of TBP-DNA binding |
| Q24310214 | Transcription factor IIA mutations show activator-specific defects and reveal a IIA function distinct from stimulation of TBP-DNA binding |
| Q34608335 | Transcriptional activation in yeast cells lacking transcription factor IIA. |
| Q58049054 | Transcriptional activity of the TFIIA four-helix bundle in vivo |
| Q35127128 | Transcriptional coactivator PC4 stimulates promoter escape and facilitates transcriptional synergy by GAL4-VP16 |
| Q35033134 | Transcriptional regulation by Modulo integrates meiosis and spermatid differentiation in male germ line |
| Q35973487 | Two type III effector genes of Xanthomonas oryzae pv. oryzae control the induction of the host genes OsTFIIAgamma1 and OsTFX1 during bacterial blight of rice |
| Q24548040 | Uncleaved TFIIA is a substrate for taspase 1 and active in transcription |
| Q36299140 | Upregulating endogenous genes by an RNA-programmable artificial transactivator |
| Q24810390 | cAMP-responsive element in TATA-less core promoter is essential for haploid-specific gene expression in mouse testis |
| Q38833599 | p53 Dynamically Directs TFIID Assembly on Target Gene Promoters |
| Q24550965 | p53 Stimulates TFIID-TFIIA-promoter complex assembly, and p53-T antigen complex inhibits TATA binding protein-TATA interaction |