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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transcriptional mechanisms that govern cellular differentiation typically include sequence-specific DNA-binding proteins and chromatin-modifying activities. These regulatory factors are assumed necessary and sufficient to drive both divergent programs of proliferation and terminal differentiation. By contrast, potential contributions of the basal transcriptional apparatus to orchestrate cell-specific gene expression have been poorly explored. In order to probe alternative mechanisms that control differentiation, we have assessed the fate of the core promoter recognition complex, TFIID, during skeletal myogenesis. Here we report that differentiation of myoblast to myotubes involves the disruption of the canonical holo-TFIID and replacement by a novel TRF3/
TAF3
(TBP-related factor 3/
TATA-binding protein
-associated factor 3) complex. This required switching of core promoter complexes provides organisms a simple yet effective means to selectively turn on one transcriptional program while silencing many others. Although this drastic but parsimonious transcriptional switch had previously escaped our attention, it may represent a more general mechanism for regulating cell type-specific terminal differentiation.
...
PMID:Switching of the core transcription machinery during myogenesis. 1778 21
The Transcription Factor IID is a large macromolecular complex composed of the
TATA-box binding protein
(
TBP
) and a group of 13-14 conserved
TBP
-associated factors (TAFs). TAFs are known to regulate transcription at various levels - mediating transcription via interaction with activators, histone modifications; recognition and binding to promoters; acting as a platform for other Transcription Factors and RNA polymerase II. Despite numerous previous studies of the TFIID complex, the knowledge concerning the structure of its components, and thus the exact mechanism of its function, remains undetermined. To carry out an in-depth analysis of TFIID we performed the structural bioinformatic analysis of the TFIID complex. The sequence identity and similarity of 13.74% and 37.56%, respectively (calculated with PAM250 matrix) between M1 aminopeptidase protein and TAF2 and the high similarity of their putative secondary structures allowed us to model a large part of the TAF2 structure. The sequence analysis enabled the mapping of previously not fully characterized structural domains in well-studied TAF proteins (including the full histone domains of TAF4 and 12 or
TAF3
and 8). In this study we provided detailed structural models for all the elements of human analyzed in the context of TFIID activity, along with indications of structural alterations within TFIID in various animal model species.
...
PMID:Structural bioinformatics of the general transcription factor TFIID. 2314 42
