p53 Dynamically Directs TFIID Assembly on Target Gene Promoters

Coleman, Robert A.; Qiao, Zhen; Singh, Sameer; Peng, Chunte S; Cianfrocco, Michael A.; Zhang, Zengyan; Piasecka, Anna; Aldeborgh, H.; Basishvili, Givi; Liu, W. L.

doi:10.1128/mcb.00085-17

Cited by 17 publications

(16 citation statements)

References 69 publications

(115 reference statements)

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“…Notably, PBAF's residence time on chromatin is highly similar to activators (Sox2 and p53, ~15 seconds Coleman et al 2017)) and the Polycomb repressor (Cbx7, ~7 seconds (Zhen et al 2016)) as measured using single molecule tracking. This further indicates that a variety of transcription factors dynamically access their chromatin targets on timescales of seconds.…”

Section: Orchestrating Pbaf's Chromatin Binding Nucleosome Remodelinmentioning

confidence: 96%

Bromodomains regulate dynamic targeting of the PBAF chromatin remodeling complex to chromatin hubs

Kenworthy

Liou

Chandris

et al. 2017

Preprint

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ATP-dependent chromatin-remodeling complexes such as PBAF mediate changes in chromatin structure, leading to regulation of transcriptional bursting. PBAF is targeted to genomic loci by histone acetylation. Despite extensive in vitro studies, how these chromatin remodelers rapidly bind and discriminate genomic targets in vivo remains unclear. Therefore, we sought to understand how the PBAF complex interacts with different chromatin states using live-cell single molecule fluorescence microscopy. Dual color tracking revealed that PBAF binds H3.3 marked chromatin within actively transcribed regions for faster time periods relative to binding to HP1α containing heterochromatin. Notably, elevation of histone acetylation levels increased the frequency of PBAF revisiting to genomic foci as defined by clustered binding. Furthermore, deletion of six bromodomains within the BAF180 subunit of PBAF reduced chromatin target search efficiency, clustered binding activity, and anchoring to the genome. These findings suggest that acetyl-lysine dependent clustered binding of PBAF to select genomic loci may facilitate rapid chromatin remodeling in actively transcribed regions.Our work also indicates that the dynamics of PBAF mediated chromatin state alterations proceed at fast timescales that may fine-tune transcription regulation.peer-reviewed)

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Section: Orchestrating Pbaf's Chromatin Binding Nucleosome Remodelinmentioning

confidence: 96%

Bromodomains regulate dynamic targeting of the PBAF chromatin remodeling complex to chromatin hubs

Kenworthy

Liou

Chandris

et al. 2017

Preprint

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“…Our cryo-EM studies further suggest that p53 aids in TFIID's transition to the rearranged DNA-binding conformation. 7 More recently, armed with significant advancement of cryo-EM, we have captured the first 3D structure of wild-type p53 bound to human Pol II 13 (Fig. 1).…”

Section: Capturing P53-mediated Transcription Assemblies Via Cryo-emmentioning

confidence: 99%

“…It is established that p53 directly binds and recruits several components of the transcription initiation machinery (i.e., Pol II, TFIIB, TFIID, TFIIH, Mediator) to promote PIC assembly on the promoter. [6][7][8][9][10][11][12] Researchers have long questioned how p53 can simultaneously recruit multiple factors during PIC assembly. It is also unclear which oligomeric form of p53 is actually responsible for navigating these multivalent interactions.…”

Section: Multiplex P53 Interactions With the Transcription Machinerymentioning

confidence: 99%

“…6,7 p53 was shown to bind several PIC components (i.e., TFIIB, TFIID, TFIIH, Mediator, Pol II) and subsequently aid their recruitment to the core promoter. [6][7][8][9][10][11][12][13] Thus, the interactions of p53 with multiple components of the PIC are crucial for transcription initiation. Researchers have studied stimulation of eukaryotic transcription by activators (e.g., p53) for the last 30 years.…”

Section: Introductionmentioning

confidence: 99%

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A new era of studying p53-mediated transcription activation

2017

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“…This factor can directly recognize a variety of core promoter structures such as the TATA box, initiator (Inr), motif ten element (MTE), downstream promoter element (DPE) or downstream core element (DCE) to initiate accurate transcription from transcriptional start sites (TSSs) (Thomas and Chiang, 2006;Kadonaga, 2012;Lenhard et al, 2012;Nogales et al, 2017). Furthermore, when TFIID interacts with transcriptional activators on the promoter DNA, its conformation may be altered to recruit other GTFs (i.e., TFIIA, B, E, F and H) as well as RNA polymerase II to the core promoter region, culminating in assembly of the preinitiation complex (PIC) (Johnson and Carey, 2003;Liu et al, 2009;Coleman et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Transcriptional activation is weakened when Taf1p N-terminal domain 1 is substituted with its <i>Drosophila</i> counterpart in yeast TFIID

2019

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Transcription factor II D (TFIID), a multiprotein complex consisting of TATAbinding protein (TBP) and 13-14 TBP-associated factors (Tafs), plays a central role in transcription and regulates nearly all class II genes. The N-terminal domain of Taf1p (TAND) can be divided into two subdomains, TAND1 and TAND2, which bind to the concave and convex surfaces of TBP, respectively. The interaction between TAND and TBP is thought to be regulated by TFIIA, activators and/or DNA during transcriptional activation, as the TAND1-bound form of TBP cannot bind to the TATA box. We previously demonstrated that Drosophila TAND1 binds to TBP with a much stronger affinity than yeast TAND1 and that the expression levels of full-length chimeric Taf1p, whose TAND1 is replaced with the Drosophila counterpart, can be varied in vivo by substituting several methionine residues downstream of TAND2 with alanine residues in various combinations. In this study, we examined the transcriptional activation of the GAL1-lacZ reporter or endogenous genes such as RNR3 or GAL1 in yeast cells expressing various levels of full-length chimeric Taf1p. The results showed that the substitution of TAND1 with the Drosophila counterpart in yeast TFIID weakened the transcriptional activation of GAL1-lacZ and RNR3 but not that of GAL1. These findings strongly support a model in which TBP must be released efficiently from TAND1 within TFIID upon transcriptional activation.

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p53 Dynamically Directs TFIID Assembly on Target Gene Promoters

Cited by 17 publications

References 69 publications

Bromodomains regulate dynamic targeting of the PBAF chromatin remodeling complex to chromatin hubs

Bromodomains regulate dynamic targeting of the PBAF chromatin remodeling complex to chromatin hubs

A new era of studying p53-mediated transcription activation

Transcriptional activation is weakened when Taf1p N-terminal domain 1 is substituted with its <i>Drosophila</i> counterpart in yeast TFIID

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