Fiche publication
Date publication
mars 2026
Journal
Science advances
Auteurs
Membres identifiés du Cancéropôle Est :
Dr LEBEAU Luc
,
Dr SCHULTZ Patrick
,
Dr TORA Laszlo
,
Dr BEN SHEM Adam
Tous les auteurs :
Damilot M, Schoeps T, Tora L, Schultz P, Lebeau L, Papai G, Ben-Shem A
Lien Pubmed
Résumé
Human SAGA is a 20-subunit transcriptional coactivator. Compared with yeast, metazoan SAGA uniquely incorporates a 150-kDa splicing-factor module (SPL), also present in U2 small nuclear ribonucleoprotein (U2snRNP). Metazoan gene duplication further specialized shared TFIID/SAGA subunits into SAGA-specific paralogs (TAF5L and TAF6L), but the functional consequences of this divergence are unknown. We report the structure of endogenous human SAGA purified via an affinity ligand from cells that were not disturbed by any genomic engineering tools. Our work reveals the high-resolution structure of SPL and the TAF6L HEAT repeat domain that provides the SPL with a docking surface. We elucidate how SPL and the HEAT repeats are incorporated into SAGA. We identify major structural differences between TAF6L/TAF5L and their canonical paralogs that enable SPL accommodation. SPL engages SAGA through a substantially smaller interface than in U2snRNP, despite sharing a deeply inserted helical motif. The seemingly weaker interaction of SPL with SAGA raises the possibility that SAGA relays this module to the splicing machinery.
Mots clés
Humans, Evolution, Molecular, Protein Binding, Ligands, Trans-Activators, chemistry, Models, Molecular, Transcription Factor TFIID, chemistry, Protein Conformation
Référence
Sci Adv. 2026 03 20;12(12):eaec8104
