Project description:GAF-depleted Drosophila melanogaster embryos

Project description:Hi-C was performed using the Bridge Adaptor Protocol in 2 biological replicates of Drosophila embryos at NC14 depleted of the maternal deposition of Beaf-32, CP190 or CTCF mRNA and protein. Embryos were collected at 2-3h AEL and were derived from mothers expressing RNAi against Beaf-32 or CP190 in the germline, or were genetic null for the maternal and zygotic contribution of CTCF.

Project description:Hi-C was performed on wild-type Drosophila melanogaster embryos at 6-8 hrs and 16-18 hrs after egg-laying, on 2 biological replicates per time point. Each library was first checked on MiSeq and then deeply sequenced on HiSeq 2000 (4 lanes for each biological replicate). This study completes the E-MTAB-12070 Hi-C dataset on 2-4 hrs wild-type Drosophila melanogaster embryos. Both studies use the same experimental procedures (protocols, sequencer model and run parameters)

Project description:The Drosophila pioneer factor GAF is known to be essential for RNA Pol II promoter-proximal pausing and the removal of nucleosomes from a set of target promoters with GAGAG motifs. We and others have speculated that GAF recruits the ISWI family ATP-dependent chromatin remodeling complex NURF, on the basis that NURF and GAF are both required to remodel nucleosomes on an hsp70 promoter in vitro and that GAF interacts physically with NURF. However, GAF was also recently shown to interact with PBAP, a SWI/SNF family remodeler. To test which of these remodeling complexes GAF works with, we depleted GAF, NURF301, BAP170, and NURF301+BAP170 in Drosophila S2 cells using RNAi. We used a combination of PRO-seq, ATAC-seq, 3'RNA-seq, and CUT&RUN to demonstrate that while GAF and PBAP synergistically open chromatin at target promtoers which allows Pol II recruitment and pausing to proceed, GAF and NURF also synergistically position the +1 nucleosome to ensure efficient pause release and transition to productive elongation.

Project description:We used a Drosophila melanogaster line (a "double balancer") carrying balancer chromosomes for both the second (CyO) and third (TM3) chromosomes, and crossed it to an isogenic wild-type "virginizer" line. Trans-heterozygous adults from the F1 generation were further crossed to the wild-type parental line to obtain the pool of N1 embryos. Allele-specific chromosome conformation capture (Hi-C) was used to measure changes in chromatin organization on both chromosomes.

Project description:GAGA associated transcription factor (GAF) is a highly abundant and essential protein in Drosophila. GAF recognizes and binds arrays of GA dinucleotides via a zinc finger DNA binding domain to regulate transcription by binding to general TF machinery or recruit nucleosome remodeling factors. We performed GAF ChIP-seq to quantify the intensity of GAF binding at high resolution in S2 cells. In addition, we performed GAF ChIP-seq in S2 cells that were depleted of GAF by RNAi. By quantifying the degree to which all GAF binding sites are susceptible to GAF depletion, we found the cellular degree of depletion does not translate equally to the depletion of GAF at individual chromatin bound sites. For example, some high intensity GAF binding sites were completely unaffected by GAF depletion, while lower affinity binding sites were often ablated upon GAF depletion. These data sets will serve as a valuable resource to others who study the dynamic interplay between GAF and chromatin. We also compared the GAF binding sites to the full set of genomic ChIP data that is available for S2 cells and compared the intensity for each factor and histone modification/variant. Lastly, we investigated the influence that GAF had upon inducible transcription factor binding using the heat shock system. A single mock immunoprecipitation (IP) using non-specific IgG was used as a background dataset for this study (see PMID: 20844575; GSM470838). We performed two independent GAF-ChIP-seq experiments in untreated S2 cells and two replicates in S2 cells that were depleted of GAF by RNAi.

Project description:Protein expression levels of Drosophila melanogaster embryos were monitored by SWATH-MS after heat-shock treatments.

Project description:Hi-C of early Drosophila melanogaster embryos

Project description:We use deep-sequencing of Hi-C libraries to identify topological boundaries at high resolution and show that boundaries, insulators, and polytene interbands converge on the same short genomic elements.

Project description:GAGA associated transcription factor (GAF) is a highly abundant and essential protein in Drosophila. GAF recognizes and binds arrays of GA dinucleotides via a zinc finger DNA binding domain to regulate transcription by binding to general TF machinery or recruit nucleosome remodeling factors. We performed GAF ChIP-seq to quantify the intensity of GAF binding at high resolution in S2 cells. In addition, we performed GAF ChIP-seq in S2 cells that were depleted of GAF by RNAi. By quantifying the degree to which all GAF binding sites are susceptible to GAF depletion, we found the cellular degree of depletion does not translate equally to the depletion of GAF at individual chromatin bound sites. For example, some high intensity GAF binding sites were completely unaffected by GAF depletion, while lower affinity binding sites were often ablated upon GAF depletion. These data sets will serve as a valuable resource to others who study the dynamic interplay between GAF and chromatin. We also compared the GAF binding sites to the full set of genomic ChIP data that is available for S2 cells and compared the intensity for each factor and histone modification/variant. Lastly, we investigated the influence that GAF had upon inducible transcription factor binding using the heat shock system.