Project description:The aim of this study is to compare NGS-derived yeast transcriptome profiling (RNA-seq) of wild-type and bdf1-Y187F-Y354F mutant strains after sporulation induction (time points: 0h 4h and 8h).
Project description:Bromodomain and Extra-terminal motif (BET) proteins play a central role in transcription regulation and chromatin signalling pathways. In yeast, Bdf1 and its homologous protein Bdf2 are partially redundant and the deletion of both genes is lethal. Most of Bdf1 functions have been investigated in vegetative cells even if this protein is essential for sporulation. In this study, we explored for the first time the functional role of the Bdf1 bromodomains during the sporulation program. Extensive purification of Bdf1 partners identified two independent complexes with Bdf2 or the Swr1 complex. However, none of them are required for meiotic gene regulation or to complete sporulation. Taken together, our results unveil a new role for Bdf1 as a meiotic-specific gene transcriptional regulator independently of its predominant protein partners.
Project description:Human BET family members are promising targets in the therapy of cancer and immunoinflammatory diseases, but their mechanism of action and functional redundancies are poorly understood. Yeast BET factors Bdf1/2 were previously proposed to act as anchors for coactivator TFIID. We investigated their genome wide roles in transcription and found that, while they cooperate with TFIID at many genes, their contributions to transcription are often significantly different. Bdf1/2 co-occupy the majority of yeast promoters and affect preinitiation complex formation by participating in recruitment of TFIID, Mediator and basal factors to chromatin. Surprisingly, we discovered that hypersensitivity of genes to Bdf1/2 depletion results from combined defects in initiation of transcription and early elongation. Bdf1/2 are critical components of yeast transcriptional machinery with many functional similarities to human BET proteins, most notably Brd4.
Project description:Human BET family members are promising targets in the therapy of cancer and immunoinflammatory diseases, but their mechanism of action and functional redundancies are poorly understood. Yeast BET factors Bdf1/2 were previously proposed to act as anchors for coactivator TFIID. We investigated their genome wide roles in transcription and found that, while they cooperate with TFIID at many genes, their contributions to transcription are often significantly different. Bdf1/2 co-occupy the majority of yeast promoters and affect preinitiation complex formation by participating in recruitment of TFIID, Mediator and basal factors to chromatin. Surprisingly, we discovered that hypersensitivity of genes to Bdf1/2 depletion results from combined defects in initiation of transcription and early elongation. Bdf1/2 are critical components of yeast transcriptional machinery with many functional similarities to human BET proteins, most notably Brd4.
Project description:Human BET family members are promising targets in the therapy of cancer and immunoinflammatory diseases, but their mechanism of action and functional redundancies are poorly understood. Yeast BET factors Bdf1/2 were previously proposed to act as anchors for coactivator TFIID. We investigated their genome wide roles in transcription and found that, while they cooperate with TFIID at many genes, their contributions to transcription are often significantly different. Bdf1/2 co-occupy the majority of yeast promoters and affect preinitiation complex formation by participating in recruitment of TFIID, Mediator and basal factors to chromatin. Surprisingly, we discovered that hypersensitivity of genes to Bdf1/2 depletion results from combined defects in initiation of transcription and early elongation. Bdf1/2 are critical components of yeast transcriptional machinery with many functional similarities to human BET proteins, most notably Brd4.