Project description:The DOM-A complex regulates cell growth and proliferation in Drosophila. Analogous to the mammalian Tip60–p400 complex, DOM-A integrates two epigenetic effectors: a SWR1-type ATPase (Domino-A) that mediates histone exchange and the Tip60/KAT5 acetyltransferase. We identified Xbp1, a conserved transcriptional regulator of the unfolded protein response (UPR), as a tight interactor of the immunopurified DOM-A complex and explored the functional consequences of this association. Integrative analysis of Xbp1 and DOM-A occupancy in proliferating cells, together with reciprocal protein depletion, revealed two distinct modes of Xbp1 chromatin binding. In a sequence-specific mode, Xbp1 recruits DOM-A to motif-bearing promoters of UPR genes. In a second, motif-independent mode, Xbp1 localizes to hundreds of high-confidence DOM-A binding sites that lack Xbp1 recognition motifs; these interactions depend on DOM-A, consistent with a “reverse targeting” mechanism. Consistent with functional coupling, depletion of DOM-A reduces Xbp1 protein abundance without affecting Xbp1 mRNA levels, suggesting post-translational stabilization of Xbp1 upon association with DOM-A. Together, these findings indicate that the genome-wide interplay between Xbp1 and DOM-A may integrate UPR signaling with the broader, DOM-mediated regulation of cell growth and proliferation.

Project description:Through high throughput compound screening, we've identified compounds that induce the expression of fetal hemoglobin. This study contains CUT&RUN data of a novel target, WIZ.

Project description:The goal of this study is to investigate the biological role of the podocyte-specific long non-coding RNA Wt1os (human ortholog WT1-AS) and its contribution to glomerular health and disease. The experimental workflow integrates both in vivo and cell culture approaches. We generated a Wt1os loss-of-function mouse model and assessed kidney morphology and function using histological techniques and high-resolution microscopy. Promoter activity was evaluated through CUT&Tag analysis of H3K27ac histone marks. This dataset contains CUT&TAG data from 3 wild type and 3 Wt1os loss-of-function mutant mice.

Project description:The aim of the experiment was to compare chromatin states between healthy and hyperglycaemic mice. We focused on dendritic cells extracted from the lungs. Nuclei were extracted from 200.000 sorted dendritic cells per sample. H3K27me3 and H3K27ac were then profiled using CUT&RUN protocol.

Project description:Cut and tag experiments to determine the binding sites of BRD4 and KLF5 in the presence and absence of KLF5 in U2OS cells

Project description:CUT&RUN was performed for Sox2 on ex-vivo dissected visual thalamic nuclei from P0 mice, revealing context specific activity of Sox2 binding in differentiated neurons.

Project description:This experiment aimed at investigating how O-GlcNac occupancy sites are impacted by RNA Polymerase II removal upon doxycycline stimulation. These human colon adenocarcinoma DLD-1 cells express OsTIR and a cassette encoding mini-AID (mAID) and fluorescent protein mClover (mAID+mClover) at the initiation site of the endogenous Rpb1 gene locus (POLR2A) (Nagashima 2019).

Project description:Spermatogenesis is a recurring differentiation process that results in the production of male gametes within the testes. During this process, spermatogonial stem cells differentiate to form spermatocytes, which undergo two rounds of meiotic division to form haploid spermatids. Throughout spermiogenesis, round spermatids elongate to form mature sperm. To profile changes in chromatin marks between spermatocytes and spermatids, we generated CUT&RUN data of H3K4me3, H3K27ac and H3K9me3 marks in sorted spermatocytes and spermatids.

Project description:LncRNAs represent a major transcriptional output of the human genome, but the function of many of these elements is unknown. In this experiment, we have used the ‘CUT&RUN’ technique to quantify the changes in histone mark enrichment across the genome upon depletion of the lncRNA LINC00899 in HeLa cells. LINC00899 is of interest as its depletion results in mitotic delay, suggesting a role in mitotic progression. The CUT&RUN procedure uses antibodies to target a nuclease to the relevant protein binding site, cleaving the surrounding DNA for sequencing and yielding output equivalent to that of ChIP-seq. This experiment contains 2 replicate batches where each batch contains a sample with LINC00899 knocked down by RNA interference (RNAi); a RNAi negative control; a sample with LINC00899 knocked down with locked nucleic acid antisense oligonucleotides (LNA); and a LNA negative control. This was performed using antibodies against H3K4me3, H3K27ac, H3K36me3 and H3K27me3, as well as an IgG (goat-derived anti-rabbit) control. All samples in each batch were generated at the same time. Within each batch, all CUT&RUN experiments with the same knockdown were performed on nuclei obtained from the same cell culture. Independent cell cultures were used for experiments with different knockdown or in different batches.

Project description:SOX6 CUT&RUN on HUDEP1 over expressing SOX6-Flag. The experiment is done using and anti Flag Ab to assist the genome wide binding profile of SOX6 in HUDEP1 (Human Umbilical cord blood-Derived Erythroid Progenitor-1).