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

Abstract: Transcription activation by RNA polymerase II is a complicated process driven by combined, precisely coordinated action of a wide array of coactivator complexes, which carry out chromatin-directed activities and nucleate the assembly of the preinitiation complex on the promoter. Using various techniques, we have shown the existence of a stable coactivator supercomplex consisting of the chromatin-remodeling factor Brahma (SWI/SNF) and the transcription initiation factor TFIID, named BTFly (Brahma and TFIID in o… Show more

“…Interestingly, both in vivo and in S2 cell, Bap170 is required for stability of Bap180 (Moshkin et al 2007;) and the stability of Bap170, in turn, depends on Sayp (Chalkley et al 2008). The crucial role of Bap170 for PBAP function has also been demonstrated by the recent finding that Bap170 is essential to anchor the PBAP complex to the transcriptional initiator factor TFIID, allowing the formation of the transcriptional supercomplex BTfly (Vorobyeva et al 2009).…”

Bap170, a Subunit of the Drosophila PBAP Chromatin Remodeling Complex, Negatively Regulates the EGFR Signaling

“…Interestingly, both in vivo and in S2 cell, Bap170 is required for stability of Bap180 (Moshkin et al 2007;) and the stability of Bap170, in turn, depends on Sayp (Chalkley et al 2008). The crucial role of Bap170 for PBAP function has also been demonstrated by the recent finding that Bap170 is essential to anchor the PBAP complex to the transcriptional initiator factor TFIID, allowing the formation of the transcriptional supercomplex BTfly (Vorobyeva et al 2009).…”

Bap170, a Subunit of the Drosophila PBAP Chromatin Remodeling Complex, Negatively Regulates the EGFR Signaling

“…The interplay between chromatin remodeling and general transcriptional factors is so close, that these complexes may unite into physically stable formations termed supercomplexes [5]. An example of such cooperation has been demonstrated for the Drosophila SWI/SNF (dSWI/SNF) and TFIID complexes with the SAYP coactivator as a linchpin unit [6].…”

“…For one ChIP experiment 3x10 6 of S2 Schneider cells were taken. Crosslinking was made by 15 min incubation with 1,5% formaldehyde and was stopped by addition of 1/20 volume of the 2,5M glycine.…”

SWI/SNF Chromatin Remodeling Complex Involved in RNA Polymerase II Elongation Process in Drosophila melanogaster

“…8 BTFly activates transcription when recruited to the promoters and is functionally indivisible. SAYP is located at multiple sites on the polytene chromosomes of Drosophila larvae, 5,6 indicating that the above mechanism of transcription is apparently widespread. However, no specific activators involved in this mechanism have been identified until recently.…”

“…We have demonstrated that SAYP acts as a component of stable coactivator supercomplex BTFly, which consists of SAYP, Brahma and TFIID coactivators. 5,6 Brahma is the main chromatin-remodeling enzyme playing a genome-wide role in activation of Pol II-transcribed genes, 7 while TFIID is the key transcription initiation factor for most of Pol II-dependent genes. 8 BTFly activates transcription when recruited to the promoters and is functionally indivisible.…”

SAYP interacts with DHR3 nuclear receptor and participates in ecdysone-dependent transcription regulation