The architecture of human general transcription factor TFIID core complex

doi:10.1038/nature11791

. 2013 Jan 31;493(7434):699-702.

doi: 10.1038/nature11791. Epub 2013 Jan 6.

The architecture of human general transcription factor TFIID core complex

Christoph Bieniossek¹, Gabor Papai, Christiane Schaffitzel, Frederic Garzoni, Maxime Chaillet, Elisabeth Scheer, Petros Papadopoulos, Laszlo Tora, Patrick Schultz, Imre Berger

Affiliations

Affiliation

¹ European Molecular Biology Laboratory Grenoble Outstation, Unit of Virus Host Cell Interactions UVHCI, UJF-CNRS-EMBL Unité Mixte International UMI 3265, 6 rue Jules Horowitz, 38042 Grenoble Cedex 9, France.

PMID: 23292512
DOI: 10.1038/nature11791

The architecture of human general transcription factor TFIID core complex

Christoph Bieniossek et al. Nature. 2013.

. 2013 Jan 31;493(7434):699-702.

doi: 10.1038/nature11791. Epub 2013 Jan 6.

Authors

Christoph Bieniossek¹, Gabor Papai, Christiane Schaffitzel, Frederic Garzoni, Maxime Chaillet, Elisabeth Scheer, Petros Papadopoulos, Laszlo Tora, Patrick Schultz, Imre Berger

Affiliation

¹ European Molecular Biology Laboratory Grenoble Outstation, Unit of Virus Host Cell Interactions UVHCI, UJF-CNRS-EMBL Unité Mixte International UMI 3265, 6 rue Jules Horowitz, 38042 Grenoble Cedex 9, France.

PMID: 23292512
DOI: 10.1038/nature11791

Abstract

The initiation of gene transcription by RNA polymerase II is regulated by a plethora of proteins in human cells. The first general transcription factor to bind gene promoters is transcription factor IID (TFIID). TFIID triggers pre-initiation complex formation, functions as a coactivator by interacting with transcriptional activators and reads epigenetic marks. TFIID is a megadalton-sized multiprotein complex composed of TATA-box-binding protein (TBP) and 13 TBP-associated factors (TAFs). Despite its crucial role, the detailed architecture and assembly mechanism of TFIID remain elusive. Histone fold domains are prevalent in TAFs, and histone-like tetramer and octamer structures have been proposed in TFIID. A functional core-TFIID subcomplex was revealed in Drosophila nuclei, consisting of a subset of TAFs (TAF4, TAF5, TAF6, TAF9 and TAF12). These core subunits are thought to be present in two copies in holo-TFIID, in contrast to TBP and other TAFs that are present in a single copy, conveying a transition from symmetry to asymmetry in the TFIID assembly pathway. Here we present the structure of human core-TFIID determined by cryo-electron microscopy at 11.6 Å resolution. Our structure reveals a two-fold symmetric, interlaced architecture, with pronounced protrusions, that accommodates all conserved structural features of the TAFs including the histone folds. We further demonstrate that binding of one TAF8-TAF10 complex breaks the original symmetry of core-TFIID. We propose that the resulting asymmetric structure serves as a functional scaffold to nucleate holo-TFIID assembly, by accreting one copy each of the remaining TAFs and TBP.

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[1] Genes Dev. 1997 Nov 15;11(22):3020-31 - PubMed

[2] Genes Dev. 1997 Nov 15;11(22):3020-31 - PubMed

[3] EMBO J. 2005 Aug 3;24(15):2753-67 - PubMed

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The architecture of human general transcription factor TFIID core complex

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The architecture of human general transcription factor TFIID core complex

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