Literature DB >> 17668451

Transcription factor access to promoter elements.

Randall H Morse1.   

Abstract

In eukaryotes, transcription factors, including both gene-specific activators and general transcription factors (GTFs), operate in a chromatin milieu. Here, we review evidence from gene-specific and genome-wide studies indicating that chromatin presents an environment that is typically permissive for activator binding, conditional for pre-initiation complex (PIC) formation, and inhibitory for productive PIC assembly within coding sequences. We also discuss the role of nucleosome dynamics in facilitating access to transcription factors (TFs) in vivo and indicate some of the principal questions raised by recent findings. (c) 2007 Wiley-Liss, Inc.

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Year:  2007        PMID: 17668451     DOI: 10.1002/jcb.21493

Source DB:  PubMed          Journal:  J Cell Biochem        ISSN: 0730-2312            Impact factor:   4.429


  29 in total

1.  Competence of an artificial bent DNA as a transcriptional activator in mouse ES cells.

Authors:  Jun-ichi Tanase; Tasuku Mitani; Koji Udagawa; Jun-ichi Nishikawa; Takashi Ohyama
Journal:  Mol Biol Rep       Date:  2010-03-20       Impact factor: 2.316

2.  In vitro reconstitution of PHO5 promoter chromatin remodeling points to a role for activator-nucleosome competition in vivo.

Authors:  Franziska Ertel; A Barbara Dirac-Svejstrup; Christina Bech Hertel; Dorothea Blaschke; Jesper Q Svejstrup; Philipp Korber
Journal:  Mol Cell Biol       Date:  2010-06-21       Impact factor: 4.272

3.  A nucleosome positioned by alpha2/Mcm1 prevents Hap1 activator binding in vivo.

Authors:  Nobuyuki Morohashi; Kumiko Nakajima; Daichi Kurihara; Yukio Mukai; Aaron P Mitchell; Mitsuhiro Shimizu
Journal:  Biochem Biophys Res Commun       Date:  2007-10-16       Impact factor: 3.575

4.  An improved method to obtain a soluble nuclear fraction from embryonic brain tissue.

Authors:  Sebastián Giusti; María Eugenia Bogetti; Antonela Bonafina; Sara Fiszer de Plazas
Journal:  Neurochem Res       Date:  2009-05-22       Impact factor: 3.996

5.  Differential cofactor requirements for histone eviction from two nucleosomes at the yeast PHO84 promoter are determined by intrinsic nucleosome stability.

Authors:  Christian J Wippo; Bojana Silic Krstulovic; Franziska Ertel; Sanja Musladin; Dorothea Blaschke; Sabrina Stürzl; Guo-Cheng Yuan; Wolfram Hörz; Philipp Korber; Slobodan Barbaric
Journal:  Mol Cell Biol       Date:  2009-03-23       Impact factor: 4.272

6.  Transcription coactivator SAYP combines chromatin remodeler Brahma and transcription initiation factor TFIID into a single supercomplex.

Authors:  Nadezhda E Vorobyeva; Nataliya V Soshnikova; Julia V Nikolenko; Julia L Kuzmina; Elena N Nabirochkina; Sofia G Georgieva; Yulii V Shidlovskii
Journal:  Proc Natl Acad Sci U S A       Date:  2009-06-18       Impact factor: 11.205

7.  A novel strategy of transcription regulation by intragenic nucleosome ordering.

Authors:  Cédric Vaillant; Leonor Palmeira; Guillaume Chevereau; Benjamin Audit; Yves d'Aubenton-Carafa; Claude Thermes; Alain Arneodo
Journal:  Genome Res       Date:  2009-10-26       Impact factor: 9.043

Review 8.  Nucleosome positioning in yeasts: methods, maps, and mechanisms.

Authors:  Corinna Lieleg; Nils Krietenstein; Maria Walker; Philipp Korber
Journal:  Chromosoma       Date:  2014-12-23       Impact factor: 4.316

9.  Regulated large-scale nucleosome density patterns and precise nucleosome positioning correlate with V(D)J recombination.

Authors:  Sandhya R Pulivarthy; Mattia Lion; Guray Kuzu; Adam G W Matthews; Mark L Borowsky; John Morris; Robert E Kingston; Jonathan H Dennis; Michael Y Tolstorukov; Marjorie A Oettinger
Journal:  Proc Natl Acad Sci U S A       Date:  2016-10-03       Impact factor: 11.205

10.  Bayesian network analysis of targeting interactions in chromatin.

Authors:  Bas van Steensel; Ulrich Braunschweig; Guillaume J Filion; Menzies Chen; Joke G van Bemmel; Trey Ideker
Journal:  Genome Res       Date:  2009-12-09       Impact factor: 9.043
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