Project description:Nodal signaling maintains H3K18ac landscape to promote mesendodermal differentiation through TRIM33

Project description:In differentiated mouse ESCs, most of the nodal/activin responsive genes are dependent on both Smad4 and Trim33, some are solely dependent on Smad4, and some are dependent on Trim33. Ebs at Day2.5 from WT, Smad4 null, and Trim33 knock-down ESCs, were treated with activin or SB 431542 for 2 h.

Project description:In differentiated mouse ESCs, most of the nodal/activin responsive genes are dependent on both Smad4 and Trim33, some are solely dependent on Smad4, and some are dependent on Trim33.

Project description:Chromatin immuno-precipitation using anti-H3K18ac antibodies in U2OS cells.

Project description:Smad4 and Trim33 dependend nodal/activin responsive genes in differentiated mouse ESCs

Project description:TRIM33 is a chromatin reader required for mesendoderm differentiation upon activation of Nodal signaling. But, its role in mESCs is still elusive. Here, we found that TRIM33 co-localizes with promyelocytic leukemia nuclear bodies (PML NBs) specifically in mESCs to mediate Nodal signaling-directed transcription of Lefty1/2. We showed that TRIM33 puncta formation in mESCs depends on PML and specific assembly of PML NBs. Moreover, TRIM33 and PML co-regulate Lefty1/2 expression in mESCs. In addition, both PML and mESCs-specific PML NBs are required for TRIM33 recruitment at Lefty1/2 loci. Remarkably, PML NBs directly associate with the Lefty1/2 loci in mESCs. Finally, a TurboID proximity labeling experiment confirmed that TRIM33 is highly enriched in the mESCs-specific PML NBs. Thus, our study provides the mechanistic insight about TRIM33 condensate in regulating Nodal signaling-directed transcription in mESCs, it also reveals that PML NBs recruit distinct sets of client proteins in cell context dependent manner.

Project description:modENCODE_submission_2996 This submission comes from a modENCODE project of Gary Karpen. For full list of modENCODE projects, see http://www.genome.gov/26524648 Project Goal: We aim to determine the locations of the major histone modifications across the Drosophila melanogaster genome. The modifications under study are involved in basic chromosomal functions such as DNA replication, gene expression, gene silencing, and inheritance. We will perform Chromatin ImmunoPrecipitation (ChIP) using genomic tiling arrays. We will initially assay localizations using chromatin from three cell lines and two embryonic stages, and will then extend the analysis of a subset of proteins to four additional animal tissues/stages. For data usage terms and conditions, please refer to http://www.genome.gov/27528022 and http://www.genome.gov/Pages/Research/ENCODE/ENCODEDataReleasePolicyFinal2008.pdf Keywords: CHIP-chip EXPERIMENT TYPE: CHIP-chip. BIOLOGICAL SOURCE: Cell Line: Kc167; Tissue: embryo-derived cell-line; Developmental Stage: late embryonic stage; Genotype: se/e; Sex: Female; NUMBER OF REPLICATES: 4; EXPERIMENTAL FACTORS: Cell Line Kc167; Antibody H3K18Ac (new lot) (target is H3K18Ac)

Project description:TRIM33 is a chromatin reader required for nodal signaling during mesendoderm differentiation, although differences in its function between mouse embryonic stem cells (mESCs) and differentiated mesendoderm cells are unknown. Here, we found that TRIM33 co-condenses with PML nuclear bodies (NBs) via liquid-liquid phase separation specifically in mESCs to mediate nodal signaling-directed transcription of Lefty1/2. Our findings show that TRIM33 puncta formation depends on the presence of PML NBs. TurboID proximity labeling further revealed that PML NBs recruit distinct sets of client proteins in NaAsO2-treated, untreated mESCs, and differentiated cells. TRIM33 and PML co-regulate Lefty1/2 expression, while PML NBs directly associate with the Lefty1/2 loci and regulate a gene cluster that includes Lefty1/2 loci specifically in mESCs. Moreover, TRIM33 association with chromatin depends on PML NBs. Thus, PML NBs serve as a hub for transcriptional regulation of Lefty1/2 by TRIM33 and other pluripotency factors in mESCs.

Project description:TRIM33 is a chromatin reader required for nodal signaling during mesendoderm differentiation, although differences in its function between mouse embryonic stem cells (mESCs) and differentiated mesendoderm cells are unknown. Here, we found that TRIM33 co-condenses with PML nuclear bodies (NBs) via liquid-liquid phase separation specifically in mESCs to mediate nodal signaling-directed transcription of Lefty1/2. Our findings show that TRIM33 puncta formation depends on the presence of PML NBs. TurboID proximity labeling further revealed that PML NBs recruit distinct sets of client proteins in NaAsO2-treated, untreated mESCs, and differentiated cells. TRIM33 and PML co-regulate Lefty1/2 expression, while PML NBs directly associate with the Lefty1/2 loci and regulate a gene cluster that includes Lefty1/2 loci specifically in mESCs. Moreover, TRIM33 association with chromatin depends on PML NBs. Thus, PML NBs serve as a hub for transcriptional regulation of Lefty1/2 by TRIM33 and other pluripotency factors in mESCs.

Project description:modENCODE_submission_4946 This submission comes from a modENCODE project of Gary Karpen. For full list of modENCODE projects, see http://www.genome.gov/26524648 Project Goal: We aim to determine the locations of the major histone modifications across the Drosophila melanogaster genome. The modifications under study are involved in basic chromosomal functions such as DNA replication, gene expression, gene silencing, and inheritance. We will perform Chromatin ImmunoPrecipitation (ChIP) using the Illumina NGS sequencing platform. We will initially assay localizations using chromatin from three cell lines and two embryonic stages, and will then extend the analysis of a subset of proteins to four additional animal tissues/stages. For data usage terms and conditions, please refer to http://www.genome.gov/27528022 and http://www.genome.gov/Pages/Research/ENCODE/ENCODEDataReleasePolicyFinal2008.pdf EXPERIMENT TYPE: CHIP-seq. BIOLOGICAL SOURCE: Strain: Oregon-R(official name : Oregon-R-modENCODE genotype : wild type ); Developmental Stage: Mixed Adult; Genotype: wild type; EXPERIMENTAL FACTORS: Strain Oregon-R(official name : Oregon-R-modENCODE genotype : wild type ); tissue (organism part) ; Antibody H3K18Ac (new lot) (target is H3K18Ac); Developmental Stage Mixed Adult