Project description:The selection and activity of transcription start sites (TSSs) are central to gene regulation and depend on sequence and chromatin features within a core promoter region. We present, at single-bp resolution, the TSS landscape of Oikopleura dioica, a marine chordate in the sister group to vertebrates and relate dynamics of promoter usage, and their architectures, across its life cycle, to chromatin features. TSS selection grammars include a genome-wide shift during spermatogenesis to promoters with a novel, position-specific, core promoter element, present in >70% of male-specific promoters. Differential promoter usage in spermatogenesis includes the activation of cryptic internal promoters within polycistronic operons, alternative TSS selection within promoters of genes expressed in earlier development and the exclusion of trans-splice sites. In contrast, maternal promoters, which are active in endocycling nurse nuclei in O. dioica, lack position-specific motifs, have dispersed TSS usage, ordered nucleosomes around the TSS and typical histone modifications associated with broad promoters. Furthermore, our results indicate that the cell cycle regulator, E2F1, acts as a master regulator of these maternally expressed genes. Zygotic promoters are also predominantly broad and the vertebrate maternal to zygotic switch in mode of TSS-selection is absent. DNA methylation in gene bodies is an ancient property of eukaryotic genomes and is thought to repress alternative TSSs. We report a strong association between gene body DNA methylation, H3K4me3-depletion and TATA-dependent sharp promoters in O. dioica. Core promoter features may therefore determine the subset of gene bodies that are methylated in this invertebrate genome.

Project description:More than half of human protein-coding genes have an alternative transcription start site (TSS). We aimed to investigate the contribution of alternative TSSs to the acute-stress–induced transcriptome response in human tissue (skeletal muscle) using the cap analysis of gene expression approach. TSSs were examined at baseline and during recovery after acute stress (a cycling exercise). We identified 44,680 CAGE TSS clusters (including 3,764 first defined) belonging to 12,268 genes and annotated for the first time 290 TSSs belonging to 163 genes. The transcriptome dynamically changes during the first hours after acute stress; the change in the expression of 10% of genes was associated with the activation of alternative TSSs, indicating differential TSSs usage. The majority of the alternative TSSs do not increase proteome complexity suggesting that the function of thousands of alternative TSSs is associated with the fine regulation of mRNA isoform expression from a gene due to the transcription factor-specific activation of various alternative TSSs. We identified individual muscle promoter regions for each TSS using muscle open chromatin data (ATAC-seq and DNase-seq). Then, using the positional weight matrix approach we predicted time course activation of “classic” transcription factors involved in response of skeletal muscle to contractile activity, as well as diversity of less/un-investigated factors. Transcriptome response induced by acute stress related to activation of the alternative TSSs indicates that differential TSSs usage is an essential mechanism of fine regulation of gene response to stress stimulus. A comprehensive resource of accurate TSSs and individual promoter regions for each TSS in muscle was created. This resource together with the positional weight matrix approach can be used to accurate prediction of TFs in any gene(s) of interest involved in the response to various stimuli, interventions or pathological conditions in human skeletal muscle.

Project description:Cryptococcus neoformans is a life-threatening basidiomycete fungal pathogen responsible for meningoencephalitis in immunocompromised patients. This yeast can adapt to diverse habitats, efficiently produces virulence factors, and escapes immune surveillance. This implies intricate mechanisms underlying its gene regulation networks, which are yet to be comprehensively understood. Alternative transcription usage regulation has been identified as the major mean for gene expression regulation in metazoans. However, in fungi, its impact remains elusive as its study has thus far been restricted to model yeasts. We here re-analysed transcription start site (TSS)-seq data to define genuine TSS clusters in two species of pathogenic Cryptococcus. We identified two types of TSS clusters associated with specific DNA sequence motifs. Our analysis also revealed that alternative TSS usage regulation in response to environmental cues is widespread in Cryptococcus, altering gene expression and protein targeting. Importantly, we performed a forward genetic screen to identify a unique transcription factor (TF) named Tur1, which regulates aTSS usage genome-wide when cells switch from exponential phase to stationary phase. Tur1 has been previously shown to be essential for virulence in C. neoformans. Accordingly, we demonstrated here that a tur1Δ mutant strain is more sensitive to superoxide stress and phagocytosed more efficiently by macrophages than the Wild-type (WT) strain.

Project description:DNA supercoiling impacts alternative transcription start site selection in yeast

Project description:Transcription from alternative transcription start sites (TSSs) is prevalent among mammalian genes and has important biological functions. However, how TSSs are selected remains elusive. We identified 87 genes with altered TSS usage (ATU) in Piwi-deficient Drosophila ovaries using the cap-analysis gene expression sequencing (CAGE-seq) method. Piwi regulates TSS usage of ATU genes in germ cells and somatic cells in ovaries as well as in cultured ovarian somatic cells (OSCs). Correspondingly, RNA Pol II initiation and elongation at TSSs of ATU genes were affected in germline-piwi-knockdown ovaries and piwi-knockdown OSCs. We identified a FACT complex component, Ssrp, as a novel interactor of Piwi in the nucleus. Temporally controlled knockdown of ssrp affected TSS usage of ATU genes whereas overexpression of ssrp partially rescued the TSS usage of ATU genes in piwi mutant ovaries. Thus, Piwi may interact with Ssrp to regulate TSS usage in Drosophila ovaries by affecting Pol II initiation and elongation.

Project description:Eukaryotes have evolved multiple ATP-dependent chromatin remodelers to shape the nucleosome landscape. We recently uncovered an evolutionarily conserved SWItch/Sucrose Non-Fermentable (SWI/SNF) chromatin remodeler complex in plants reminiscent of the mammalian BAF subclass, which specifically incorporates the MINUSCULE (MINU) catalytic subunits and the TRIPLE PHD FINGERS (TPF) signature subunits. Here we report experimental evidence that establishes the functional relevance of TPF proteins for the complex activity. Our results show that depletion of TPF triggers similar pleiotropic phenotypes and molecular defects to those found in minu mutants. Moreover, we report the genomic location of MINU2 and TPF proteins as representative members of the plant BAF-like complex and their impact on nucleosome positioning and transcription. These analyses unravel the binding of the complex to thousands of expressed genes where it modulates the position of the +1 nucleosome. These targets tend to produce 5´-shifted transcripts in the tpf and minu mutants pointing to the participation of the complex in alternative transcriptional start site (TSS) usage. Interestingly, there is a remarkable correlation between +1 nucleosome shift and upstream TSS usage suggesting their functional connection. In summary, this study unravels the function of a plant SWI/SNF complex involved in +1 nucleosome positioning and alternative TSS usage.

Project description:Alternative transcription initiation, which refers to the transcription of a gene from different transcription start sites (TSSs), is prevalent in mammalian systems and has important biological functions. Although transcriptional regulation has been extensively studied, the mechanism that selects one TSS over others in a gene remains elusive. We discovered Piwi, an RNA-binding protein, regulated TSS usage of genes and identified 87 genes with significantly altered TSS usage (ATU) in piwi-deficient Drosophila ovaries using the cap-analysis gene expression sequencing (CAGE-seq) method. This regulation occurs in both germline and somatic cells in ovaries as well as in cultured ovarian somatic cells (OSCs). Correspondingly, RNA Pol II initiation and elongation at TSSs of ATU genes were affected in germline-piwi-knockdown ovaries and piwi-knockdown OSCs. We identified a FACT complex component, Ssrp, which is essential for mRNA elongation, as a novel interactor of Piwi in the nucleus. Temporally controlled knockdown of ssrp affected TSS usage of ATU genes whereas overexpression of ssrp partially rescued the TSS usage of ATU genes in piwi mutant ovaries. Thus, Piwi may interact with Ssrp to regulate TSS usage in Drosophila ovaries by affecting Pol II initiation and elongation.

Project description:Alternative transcription initiation, which refers to the transcription of a gene from different transcription start sites (TSSs), is prevalent in mammalian systems and has important biological functions. Although transcriptional regulation has been extensively studied, the mechanism that selects one TSS over others in a gene remains elusive. We discovered Piwi, an RNA-binding protein, regulated TSS usage of genes and identified 87 genes with significantly altered TSS usage (ATU) in piwi-deficient Drosophila ovaries using the cap-analysis gene expression sequencing (CAGE-seq) method. This regulation occurs in both germline and somatic cells in ovaries as well as in cultured ovarian somatic cells (OSCs). Correspondingly, RNA Pol II initiation and elongation at TSSs of ATU genes were affected in germline-piwi-knockdown ovaries and piwi-knockdown OSCs. We identified a FACT complex component, Ssrp, which is essential for mRNA elongation, as a novel interactor of Piwi in the nucleus. Temporally controlled knockdown of ssrp affected TSS usage of ATU genes whereas overexpression of ssrp partially rescued the TSS usage of ATU genes in piwi mutant ovaries. Thus, Piwi may interact with Ssrp to regulate TSS usage in Drosophila ovaries by affecting Pol II initiation and elongation.

Project description:Alternative transcription initiation, which refers to the transcription of a gene from different transcription start sites (TSSs), is prevalent in mammalian systems and has important biological functions. Although transcriptional regulation has been extensively studied, the mechanism that selects one TSS over others in a gene remains elusive. We discovered Piwi, an RNA-binding protein, regulated TSS usage of genes and identified 87 genes with significantly altered TSS usage (ATU) in piwi-deficient Drosophila ovaries using the cap-analysis gene expression sequencing (CAGE-seq) method. This regulation occurs in both germline and somatic cells in ovaries as well as in cultured ovarian somatic cells (OSCs). Correspondingly, RNA Pol II initiation and elongation at TSSs of ATU genes were affected in germline-piwi-knockdown ovaries and piwi-knockdown OSCs. We identified a FACT complex component, Ssrp, which is essential for mRNA elongation, as a novel interactor of Piwi in the nucleus. Temporally controlled knockdown of ssrp affected TSS usage of ATU genes whereas overexpression of ssrp partially rescued the TSS usage of ATU genes in piwi mutant ovaries. Thus, Piwi may interact with Ssrp to regulate TSS usage in Drosophila ovaries by affecting Pol II initiation and elongation.

Project description:Alternative transcription initiation, which refers to the transcription of a gene from different transcription start sites (TSSs), is prevalent in mammalian systems and has important biological functions. Although transcriptional regulation has been extensively studied, the mechanism that selects one TSS over others in a gene remains elusive. We discovered Piwi, an RNA-binding protein, regulated TSS usage of genes and identified 87 genes with significantly altered TSS usage (ATU) in piwi-deficient Drosophila ovaries using the cap-analysis gene expression sequencing (CAGE-seq) method. This regulation occurs in both germline and somatic cells in ovaries as well as in cultured ovarian somatic cells (OSCs). Correspondingly, RNA Pol II initiation and elongation at TSSs of ATU genes were affected in germline-piwi-knockdown ovaries and piwi-knockdown OSCs. We identified a FACT complex component, Ssrp, which is essential for mRNA elongation, as a novel interactor of Piwi in the nucleus. Temporally controlled knockdown of ssrp affected TSS usage of ATU genes whereas overexpression of ssrp partially rescued the TSS usage of ATU genes in piwi mutant ovaries. Thus, Piwi may interact with Ssrp to regulate TSS usage in Drosophila ovaries by affecting Pol II initiation and elongation.