Project description:In Saccharomyces cerevisiae, specific genes physically relocate from the nucleoplasm to the nuclear periphery concomitant with transcriptional activation, where they associate with the nuclear pore complex (NPC). We took a genomics approach in order to gain insight into the universality and physiological relevance of the interaction between active genes and the NPC. Using synthetic genetic array (SGA) approach, we identified interactions between components of the SAGA histone acetyltransferase complex and the Mlp and Nup60 subunits of the NPC. Cells lacking these SAGA and NPC components display growth defects under optimal growth conditions, in which cells are grown on rich medium containing the preferred sugar glucose as a carbon source and incubated at their optimal temperature. That growth defects were observed under these non-stress conditions suggests that these interactions are indicative of defects in normal cell physiology. These results are consistent with a model where physical interactions between the NPC and SAGA are important for transcription of constitutively expressed genes. To test this hypothesis, we used microarray analysis to assess changes global transcript levels in the absence of Nup60, Ada2, or Nup60 and Ada2. Microarray analysis reveals that the growth defect in these double mutants is correlated with a synthetic reduction in steady-state transcript levels for numerous genes that are strongly expressed in wildtype cells. These results suggest that SAGA and Nup60 cooperate in transcriptional regulation, and are consistent with a model for global regulation of SAGA-dependent transcription at the NPC.

Project description:The SAGA complex of Saccharomyces cerevisiae contains greater than 20 components that acetylate and deubiquitylate nucleosomal histones. Its acetyltransferase, Gcn5 preferentially acetylates histones H3 and H2B and is regulated through interactions with Ada2 and Ngg1/Ada3. The N-terminal region of Ada2 contains a SANT domain that contacts Gcn5 near its catalytic site. Sequence alignments of Ada2 homologues indicate a conserved ~120 amino acid residue central region that interacts with Ngg1.To examine the function of this central region, we constructed ada2 alleles with mutations of clustered conserved residues. One of these alleles, ada2-RLR, resulted in a ~3-fold reduction in transcriptional activation of the PHO5 gene and growth changes that parallel deletion of ada2. Microarray analyses further revealed that ada2-RLR alters expression of a subset of those genes affected by deletion of ada2. Keywords: yeast, Ada2, SAGA complex, gene expression, genetic modification

Project description:SAGA member Ada2 is required for the majority of H3K9 acetylation in C. neoformans. To identify specific genomic loci that exhibit Ada2-dependent H3K9 acetylation, we performed ChIP-Seq against H3K9ac in wildtype and ada2Δ cells.

Project description:SAGA member Ada2 is required for the majority of H3K9 acetylation in C. neoformans. To identify specific genomic loci that exhibit Ada2-dependent H3K9 acetylation, we performed ChIP-Seq against H3K9ac in wildtype and ada2Δ cells. ChIP-Seq was performed using antibodies for H3K9ac in KN99 wildtype cells and ada2Δ cells. Input and IPed DNA was collected in triplicate from each strain and sequenced on an Illumnina HiSeq 2000 flow cell producing 84 million reads. Due to the lack of quality scores, raw reads are omitted from the submission.

Project description:to find functional relevance between SMC5/6 complex and SAGA histone acetyltransferase complex in Schizosaccharomyces pombe by chromatin immunoprecipitation of Nse4-FLAG tagged protein from gcn5, ubp8 and ada2 deletion strains and 2 control strains (WT - Nse4-FLAG, 501 - no tag).

Project description:To contextualize the cryptococcal Spt-Ada-Gcn5 Acetyltransferase (SAGA) member Ada2 in the capsule regulatory network, RNA-Seq was performed on wildtype, ada2Δ and two other transcription factors, nrg1Δ and cir1Δ, which like ada2Δ are also defective for capsule formation, virulence and filamentation.

Project description:To contextualize the cryptococcal Spt-Ada-Gcn5 Acetyltransferase (SAGA) member Ada2 in the capsule regulatory network, RNA-Seq was performed on wildtype, ada2M-NM-^T and two other transcription factors, nrg1M-NM-^T and cir1M-NM-^T, which like ada2M-NM-^T are also defective for capsule formation, virulence and filamentation. Mutant and wildtype cells were grown in capsule inducing and non-inducing conditions for 90 minutes and transcriptional profiling was performed by RNA-Seq analysis.

Project description:The conserved multi-subunit Ccr4-Not complex regulates gene expression in diverse ways. In this work, we characterize the suppression of temperature sensitivity associated with a mutation in the gene encoding the scaffold subunit of the Ccr4-Not complex, NOT1, by the deletion of SPT3. We determine that the deletion of SPT3, but not the deletion of genes encoding other subunits of the SAGA complex, globally suppresses transcriptional defects of not1-2. We find that transcriptional activation in not1-2 is associated with increased binding of TFIID and SAGA at promoters of upregulated genes, and this is suppressed by the deletion of SPT3. Interestingly, Spt3p-dependent activation of transcription occurs in not1-2 even if the SAGA complex is disrupted by the deletion of SPT7 that encodes a subunit of SAGA required for its integrity. Consistent with a SAGA-independent function of Spt3p, the deletion of SPT3 displays synthetic phenotypes when combined with a deletion of SPT7. Taken together, our results provide a new view of the Spt3 protein by identifying a SAGA-independent function of this protein that is functionally linked to the Ccr4-Not complex. Experiment Overall Design: 4 strains were analyzed: the wild type reference strain, two simple mutants (not1-2 and spt3) and one double mutant (not1-2 spt3). All strains were in duplicate.

Project description:SAGA and ATAC are two related transcriptional coactivator complexes, sharing the same histone acetyltransferase (HAT) subunit. The HAT activities of SAGA and ATAC are required for metazoan development but the precise role of the two complexes in RNA polymerase II transcription in mammals is less understood. To determine whether SAGA and ATAC have redundant or specific functions dependent on their HAT activities, we compared the effects of HAT inactivation in each complex with that of inactivation of either SAGA or ATAC core subunits in mouse embryonic stem cells (ESCs). We show that core subunits of SAGA or ATAC subunits are required for complex assembly, mouse ESC growth and self-renewal. Additionally, ATAC, but not SAGA subunits are required for ESC viability by regulating the transcription of translation-related genes. Surprisingly, depletion of specific or shared HAT module subunits caused a global decrease in histone H3K9 acetylation, but did not result in significant phenotypic or transcriptional defects. Thus, our results indicate that SAGA and ATAC are differentially required for viability and self-renewal of mouse ESCs by regulating transcription through different pathways, in a HAT-independent manner.

Project description:Evidence indicates that transcription and mRNA export are linked processes. The molecular mechanisms of this coordination are not clear however. Sus1 (hENY2) participates in this coordination as part of two protein complexes: SAGA, a transcriptional co-activator and TREX-2 that functions in mRNA biogenesis and export. Here we investigate the coordinated action of SAGA and TREX-2 that is required for gene expression. We demonstrate that the TREX-2/proteasomal subunit Sem1, influences Sus1 role in mRNA export and TREX-2 stability. Wide analyses of gene expression reveal that Sem1 and Sus1 have also overlapping functions in transcription. In the absence of Sem1, expression of some SAGA-dependent genes is compromised with a concomitant decrease of RNAP II recruitment to promoters. Notably, ChIP experiments revealed a distinct dependency for SAGA subunits recruitment on Sem1. While absence of Sem1 lowers Ada2 and Taf9 recruitment to GAL1 promoter upon activation, association of the deubiquitylation module remains intact. However, H2B deubiquitylation activity is dramatically decreased. These results unveil a new role for Sem1 in influencing activation of SAGA-dependent H2B deubiquitylation likely mediated by stabilization of TREX-2 complex and SAGA modular assembly. Our work gives insights in how modular architecture of SAGA is determinant for its function in gene expression. Two channel microarrays were used. RNA isolated from a large amount of wt yeast from a single culture was used as a common reference. This common reference was used in one of the channels for each hybridization and used in the statistical analysis to obtain an average expression-profile for each deletion mutant relative to the wt. Two independent cultures were hybridized on two separate microarrays. For the first hybridization the Cy5 (red) labeled cRNA from the deletion mutant is hybridized together with the Cy3 (green) labeled cRNA from the common reference. For the replicate hybridization, the labels are swapped. Each gene is represented twice on the microarray, resulting in four measurements per mutant. Using the Erlenmeyer growth protocol up to five deletion strains were grown on a single day. In the tecan platereader, up to eleven deletion strains could be grown on a single day. Wt cultures were grown parallel to the deletion mutants to assess day-to-day variance.