Literature DB >> 7479865

The activation domain of GAL4 protein mediates cooperative promoter binding with general transcription factors in vivo.

S Vashee1, T Kodadek.   

Abstract

Most proteins that activate RNA polymerase II-mediated transcription in eukaryotic cells contain sequence-specific DNA-binding domains and "activation" regions. The latter bind general transcription factors and/or coactivators and are required for high-level transcription. Their function in vivo is unknown. Since several activation domains bind the TATA-binding protein (TBP), TBP-associated factors, or other general factors in vitro, one role of the activation domain may be to facilitate promoter occupancy by supporting cooperative binding of the activator and general transcription factors. Using the GAL4 system of yeast, we have tested this model in vivo. It is demonstrated that the presence of a TATA box (the TBP binding site) facilitates binding of GAL4 protein to low- and moderate-affinity sites and that the activation domain modulates these effects. These results support the cooperative binding model for activation domain function in vivo.

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Year:  1995        PMID: 7479865      PMCID: PMC40676          DOI: 10.1073/pnas.92.23.10683

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  52 in total

1.  Direct and selective binding of an acidic transcriptional activation domain to the TATA-box factor TFIID.

Authors:  K F Stringer; C J Ingles; J Greenblatt
Journal:  Nature       Date:  1990-06-28       Impact factor: 49.962

2.  An amino-terminal fragment of GAL4 binds DNA as a dimer.

Authors:  M Carey; H Kakidani; J Leatherwood; F Mostashari; M Ptashne
Journal:  J Mol Biol       Date:  1989-10-05       Impact factor: 5.469

3.  The yeast GAL1-10 UAS region readily accepts nucleosomes in vitro.

Authors:  M Rainbow; J Lopez; D Lohr
Journal:  Biochemistry       Date:  1989-09-05       Impact factor: 3.162

4.  Interaction of human thyroid hormone receptor beta with transcription factor TFIIB may mediate target gene derepression and activation by thyroid hormone.

Authors:  A Baniahmad; I Ha; D Reinberg; S Tsai; M J Tsai; B W O'Malley
Journal:  Proc Natl Acad Sci U S A       Date:  1993-10-01       Impact factor: 11.205

5.  A multiprotein mediator of transcriptional activation and its interaction with the C-terminal repeat domain of RNA polymerase II.

Authors:  Y J Kim; S Björklund; Y Li; M H Sayre; R D Kornberg
Journal:  Cell       Date:  1994-05-20       Impact factor: 41.582

6.  Interaction between transcriptional activator protein LAC9 and negative regulatory protein GAL80.

Authors:  J M Salmeron; S D Langdon; S A Johnston
Journal:  Mol Cell Biol       Date:  1989-07       Impact factor: 4.272

7.  Proline-rich activator CTF1 targets the TFIIB assembly step during transcriptional activation.

Authors:  T K Kim; R G Roeder
Journal:  Proc Natl Acad Sci U S A       Date:  1994-05-10       Impact factor: 11.205

8.  How do "Zn2 cys6" proteins distinguish between similar upstream activation sites? Comparison of the DNA-binding specificity of the GAL4 protein in vitro and in vivo.

Authors:  S Vashee; H Xu; S A Johnston; T Kodadek
Journal:  J Biol Chem       Date:  1993-11-25       Impact factor: 5.157

9.  The zinc finger region of the adenovirus E1A transactivating domain complexes with the TATA box binding protein.

Authors:  J V Geisberg; W S Lee; A J Berk; R P Ricciardi
Journal:  Proc Natl Acad Sci U S A       Date:  1994-03-29       Impact factor: 11.205

10.  An RNA polymerase II holoenzyme responsive to activators.

Authors:  A J Koleske; R A Young
Journal:  Nature       Date:  1994-03-31       Impact factor: 49.962
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  19 in total

1.  GCN5 dependence of chromatin remodeling and transcriptional activation by the GAL4 and VP16 activation domains in budding yeast.

Authors:  G A Stafford; R H Morse
Journal:  Mol Cell Biol       Date:  2001-07       Impact factor: 4.272

2.  Regions of GAL4 critical for binding to a promoter in vivo revealed by a visual DNA-binding analysis.

Authors:  Akiko Mizutani; Masafumi Tanaka
Journal:  EMBO J       Date:  2003-05-01       Impact factor: 11.598

3.  Single-molecule and population probing of chromatin structure using DNA methyltransferases.

Authors:  Jessica A Kilgore; Scott A Hoose; Tanya L Gustafson; Weston Porter; Michael P Kladde
Journal:  Methods       Date:  2007-03       Impact factor: 3.608

4.  Gene expression from random libraries of yeast promoters.

Authors:  Martin Ligr; Rahul Siddharthan; Fredrick R Cross; Eric D Siggia
Journal:  Genetics       Date:  2006-01-16       Impact factor: 4.562

5.  Activation domain-mediated enhancement of activator binding to chromatin in mammalian cells.

Authors:  C A Bunker; R E Kingston
Journal:  Proc Natl Acad Sci U S A       Date:  1996-10-01       Impact factor: 11.205

6.  Requirements for chromatin modulation and transcription activation by the Pho4 acidic activation domain.

Authors:  P C McAndrew; J Svaren; S R Martin; W Hörz; C R Goding
Journal:  Mol Cell Biol       Date:  1998-10       Impact factor: 4.272

7.  SWI-SNF complex participation in transcriptional activation at a step subsequent to activator binding.

Authors:  M P Ryan; R Jones; R H Morse
Journal:  Mol Cell Biol       Date:  1998-04       Impact factor: 4.272

8.  Gal4p-mediated chromatin remodeling depends on binding site position in nucleosomes but does not require DNA replication.

Authors:  M Xu; R T Simpson; M P Kladde
Journal:  Mol Cell Biol       Date:  1998-03       Impact factor: 4.272

9.  Quantitation of putative activator-target affinities predicts transcriptional activating potentials.

Authors:  Y Wu; R J Reece; M Ptashne
Journal:  EMBO J       Date:  1996-08-01       Impact factor: 11.598

10.  TATA element recognition by the TATA box-binding protein has been conserved throughout evolution.

Authors:  G A Patikoglou; J L Kim; L Sun; S H Yang; T Kodadek; S K Burley
Journal:  Genes Dev       Date:  1999-12-15       Impact factor: 11.361
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