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Summary Expression Phenotypes Gene Literature (90) GO Terms (11) Nucleotides (223) Proteins (62) Interactants (339) Wiki
XB-GENEPAGE-488469

Papers associated with tbp



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Binding of transcription factor TFIID to the major late promoter during in vitro nucleosome assembly potentiates subsequent initiation by RNA polymerase II., Workman JL, Roeder RG., Cell. November 20, 1987; 51 (4): 613-22.

Transcriptional regulation by the immediate early protein of pseudorabies virus during in vitro nucleosome assembly., Workman JL, Abmayr SM, Cromlish WA, Roeder RG., Cell. October 21, 1988; 55 (2): 211-9.

An upstream transcription factor, USF (MLTF), facilitates the formation of preinitiation complexes during in vitro chromatin assembly., Workman JL, Roeder RG, Kingston RE., EMBO J. April 1, 1990; 9 (4): 1299-308.

Recombinant yeast TFIID, a general transcription factor, mediates activation by the gene-specific factor USF in a chromatin assembly assay., Meisterernst M, Horikoshi M, Roeder RG., Proc Natl Acad Sci U S A. December 1, 1990; 87 (23): 9153-7.

A variant octamer motif in a Xenopus H2B histone gene promoter is not required for transcription in frog oocytes., Hinkley C, Perry M., Mol Cell Biol. February 1, 1991; 11 (2): 641-54.

Activation domains of stably bound GAL4 derivatives alleviate repression of promoters by nucleosomes., Workman JL, Taylor IC, Kingston RE., Cell. February 8, 1991; 64 (3): 533-44.

Facilitated binding of GAL4 and heat shock factor to nucleosomal templates: differential function of DNA-binding domains., Taylor IC, Workman JL, Schuetz TJ, Kingston RE., Genes Dev. July 1, 1991; 5 (7): 1285-98.

RNA polymerase III (C) and its transcription factors., Gabrielsen OS, Sentenac A., Trends Biochem Sci. November 1, 1991; 16 (11): 412-6.

Isolation and characterization of a cDNA encoding Drosophila transcription factor TFIIB., Yamashita S, Wada K, Horikoshi M, Gong DW, Kokubo T, Hisatake K, Yokotani N, Malik S, Roeder RG, Nakatani Y., Proc Natl Acad Sci U S A. April 1, 1992; 89 (7): 2839-43.

Conserved structural motifs within the N-terminal domain of TFIID tau from Xenopus, mouse and human., Hashimoto S, Fujita H, Hasegawa S, Roeder RG, Horikoshi M., Nucleic Acids Res. July 25, 1992; 20 (14): 3788.

Multiple domains of the RNA polymerase I activator hUBF interact with the TATA-binding protein complex hSL1 to mediate transcription., Jantzen HM, Chow AM, King DS, Tjian R., Genes Dev. October 1, 1992; 6 (10): 1950-63.

TFIIIC relieves repression of U6 snRNA transcription by chromatin., Burnol AF, Margottin F, Huet J, Almouzni G, Prioleau MN, Méchali M, Sentenac A., Nature. April 1, 1993; 362 (6419): 475-7.

Functional domains of transcription factor TFIIB., Buratowski S, Zhou H., Proc Natl Acad Sci U S A. June 15, 1993; 90 (12): 5633-7.

Point mutations 5' to the tRNA selenocysteine TATA box alter RNA polymerase III transcription by affecting the binding of TBP., Myslinski E, Schuster C, Huet J, Sentenac A, Krol A, Carbon P., Nucleic Acids Res. December 25, 1993; 21 (25): 5852-8.

Binding of TFIID and MEF2 to the TATA element activates transcription of the Xenopus MyoDa promoter., Leibham D, Wong MW, Cheng TC, Schroeder S, Weil PA, Olson EN, Perry M., Mol Cell Biol. January 1, 1994; 14 (1): 686-99.

Mitotic repression of RNA polymerase III transcription in vitro mediated by phosphorylation of a TFIIIB component., Gottesfeld JM, Wolf VJ, Dang T, Forbes DJ, Hartl P., Science. January 7, 1994; 263 (5143): 81-4.

Transcription factors required for the expression of Xenopus laevis selenocysteine tRNA in vitro., Meissner W, Wanandi I, Carbon P, Krol A, Seifart KH., Nucleic Acids Res. February 25, 1994; 22 (4): 553-9.

Competition between chromatin and transcription complex assembly regulates gene expression during early development., Prioleau MN, Huet J, Sentenac A, Méchali M., Cell. May 6, 1994; 77 (3): 439-49.

Yeast TBP can replace its human homologue in the RNA polymerase I-specific multisubunit factor SL1., Rudloff U, Stunnenberg HG, Keaveney M, Grummt I., J Mol Biol. November 11, 1994; 243 (5): 840-5.

Activation of Xenopus MyoD transcription by members of the MEF2 protein family., Wong MW, Pisegna M, Lu MF, Leibham D, Perry M., Dev Biol. December 1, 1994; 166 (2): 683-95.              

Constraints on transcriptional activator function contribute to transcriptional quiescence during early Xenopus embryogenesis., Almouzni G, Wolffe AP., EMBO J. April 18, 1995; 14 (8): 1752-65.

Molecular cloning of the transcription factor TFIIB homolog from Sulfolobus shibatae., Qureshi SA, Khoo B, Baumann P, Jackson SP., Proc Natl Acad Sci U S A. June 20, 1995; 92 (13): 6077-81.

Genomic footprinting of the hsp70 and histone H3 promoters in Drosophila embryos reveals novel protein-DNA interactions., Weber JA, Gilmour DS., Nucleic Acids Res. August 25, 1995; 23 (16): 3327-34.

The sequence of a Xenopus laevis TFIID subunit reveals remarkable conservation among vertebrates., Hasegawa S, Kuzuhara T, Horikoshi M., Gene. October 27, 1995; 164 (2): 369-70.

Disruption of reconstituted nucleosomes. The effect of particle concentration, MgCl2 and KCl concentration, the histone tails, and temperature., Godde JS, Wolffe AP., J Biol Chem. November 17, 1995; 270 (46): 27399-402.

The amino-terminal tails of the core histones and the translational position of the TATA box determine TBP/TFIIA association with nucleosomal DNA., Godde JS, Nakatani Y, Wolffe AP., Nucleic Acids Res. November 25, 1995; 23 (22): 4557-64.

Genomic localization of the human gene encoding Dr1, a negative modulator of transcription of class II and class III genes., Purrello M, Di Pietro C, Rapisarda A, Viola A, Corsaro C, Motta S, Grzeschik KH, Sichel G., Cytogenet Cell Genet. January 1, 1996; 75 (2-3): 186-9.

Isolation of Xenopus laevis TFIID subunit p22 reveals two distinct structural regions., Hasegawa S, Choi BI, Horikoshi M., Gene. March 9, 1996; 169 (2): 285-6.

Phosphorylation of the N-terminal domain of Xenopus TATA-box binding protein by DNA-dependent protein kinase depends on the C-terminal core domain., Labhart P., FEBS Lett. May 20, 1996; 386 (2-3): 110-4.

TATA-box DNA binding activity and subunit composition for RNA polymerase III transcription factor IIIB from Xenopus laevis., McBryant SJ, Meier E, Leresche A, Sharp SJ, Wolf VJ, Gottesfeld JM., Mol Cell Biol. September 1, 1996; 16 (9): 4639-47.

Upstream binding factor stabilizes Rib 1, the TATA-binding-protein-containing Xenopus laevis RNA polymerase I transcription factor, by multiple protein interactions in a DNA-independent manner., Bodeker M, Cairns C, McStay B., Mol Cell Biol. October 1, 1996; 16 (10): 5572-8.

Repression of RNA polymerase II and III transcription during M phase of the cell cycle., Leresche A, Wolf VJ, Gottesfeld JM., Exp Cell Res. December 15, 1996; 229 (2): 282-8.

The Xenopus RNA polymerase I transcription factor, UBF, has a role in transcriptional enhancement distinct from that at the promoter., McStay B, Sullivan GJ, Cairns C., EMBO J. January 15, 1997; 16 (2): 396-405.

Cloning of Xenopus Dr1 (TBP-binding repressor) and its expression in oocytes and early embryos., Nagano M, Koga C, Tashiro K, Kugawa F, Shiokawa K., Biochem Biophys Res Commun. February 24, 1997; 231 (3): 561-5.            

Cross-competition for TATA-binding protein between TATA boxes of the selenocysteine tRNA[Ser]Sec promoter and RNA polymerase II promoters., Park JM, Hatfield DL, Lee BJ., Mol Cells. February 28, 1997; 7 (1): 72-7.

Molecular architecture of the hsp70 promoter after deletion of the TATA box or the upstream regulation region., Weber JA, Taxman DJ, Lu Q, Gilmour DS., Mol Cell Biol. July 1, 1997; 17 (7): 3799-808.

In vitro chromatin assembly of the HIV-1 promoter. ATP-dependent polar repositioning of nucleosomes by Sp1 and NFkappaB., Widlak P, Gaynor RB, Garrard WT., J Biol Chem. July 11, 1997; 272 (28): 17654-61.

Differential mode of TBP utilization in transcription of the tRNA[Ser]Sec gene and TATA-less class III genes., Park JM, Lee JY, Lee JY, Hatfield DL, Lee BJ., Gene. September 1, 1997; 196 (1-2): 99-103.

Association of the nucleolar transcription factor UBF with the transcriptionally inactive rRNA genes of pronuclei and early Xenopus embryos., Bell P, Mais C, McStay B, Scheer U., J Cell Sci. September 1, 1997; 110 ( Pt 17) 2053-63.                  

A functional analysis of p53 during early development of Xenopus laevis., Amariglio F, Tchang F, Prioleau MN, Soussi T, Cibert C, Méchali M., Oncogene. October 1, 1997; 15 (18): 2191-9.

Control of gene expression in Xenopus early development., Hair A, Prioleau MN, Vassetzky Y, Méchali M., Dev Genet. January 1, 1998; 22 (2): 122-31.

Repression of TFIIH transcriptional activity and TFIIH-associated cdk7 kinase activity at mitosis., Long JJ, Leresche A, Kriwacki RW, Gottesfeld JM., Mol Cell Biol. March 1, 1998; 18 (3): 1467-76.

Dimerization and HMG box domains 1-3 present in Xenopus UBF are sufficient for its role in transcriptional enhancement., Sullivan GJ, McStay B., Nucleic Acids Res. August 1, 1998; 26 (15): 3555-61.

Phosphorylation of yeast TBP by protein kinase CK2 reduces its specific binding to DNA., Maldonado E, Allende JE., FEBS Lett. January 29, 1999; 443 (3): 256-60.

Recruitment of TBP or TFIIB to a promoter proximal position leads to stimulation of RNA polymerase II transcription without activator proteins both in vivo and in vitro., Huh JR, Park JM, Kim M, Carlson BA, Hatfield DL, Lee BJ., Biochem Biophys Res Commun. March 5, 1999; 256 (1): 45-51.

Minor groove DNA-protein contacts upstream of a tRNA gene detected with a synthetic DNA binding ligand., McBryant SJ, Baird EE, Trauger JW, Dervan PB, Gottesfeld JM., J Mol Biol. March 5, 1999; 286 (4): 973-81.

Developmental changes in RNA polymerase I and TATA box-binding protein during early Xenopus embryogenesis., Bell P, Scheer U., Exp Cell Res. April 10, 1999; 248 (1): 122-35.

Analysis of the chicken TBP-like protein(tlp) gene: evidence for a striking conservation of vertebrate TLPs and for a close relationship between vertebrate tbp and tlp genes., Shimada M, Ohbayashi T, Ishida M, Nakadai T, Makino Y, Aoki T, Kawata T, Suzuki T, Matsuda Y, Tamura T., Nucleic Acids Res. August 1, 1999; 27 (15): 3146-52.

A nuclear factor, ASC-2, as a cancer-amplified transcriptional coactivator essential for ligand-dependent transactivation by nuclear receptors in vivo., Lee SK, Anzick SL, Choi JE, Bubendorf L, Guan XY, Jung YK, Kallioniemi OP, Kononen J, Trent JM, Azorsa D, Jhun BH, Cheong JH, Lee YC, Meltzer PS, Lee JW, Lee JW., J Biol Chem. November 26, 1999; 274 (48): 34283-93.

Inhibition of transcription of class II, but not class III and I, genes in Xenopus postblastular embryos overexpressed with the TBP-binding protein, Dr1 (NC2beta)., Nagano M, Shiokawa K., Biochem Biophys Res Commun. November 30, 1999; 265 (3): 644-51.

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