Project description:Selective transcriptional activation and repression of genes throughout signaling cascades and development are poorly understood. Transcription factors (TF) orchestrate patterns and magnitude of transcriptional response, but TF action, or inaction, is highly dependent upon TF kinetics, distance from genes, chromatin architecture, and the local occupancy of other TFs. We integrated genomic transcription, chromosome looping, TF binding, and chromatin structure data to analyze the molecular cascade that results from estradiol-induced (E2) signaling in human MCF-7 breast cancer cells and addressed the context-specific nature of gene regulation. We analyzed kinetic ChIP-seq that profiled the master regulator of the E2-mediated response, estrogen receptor (ER), and found that transient ER binding sites are specifically associated with enhancers of repressed genes. We performed replicate ChIP-seq experiments prior to estrogen treatment and 2min, 5min, 10min, 40min, and 160min after E2 treatment.

Project description:IMR90 cells were infected with pLNC-RAS:ER (from Jesus Gil lab) with retroviral gene transfer. Infected cells were drug selected G418. The cells were induced either with ethanol as control or with 100nM final conc 4-hydroxytamoxifen (sigma H7904) for ectopic expression of protein We used RNA-Seq to detail the global programme of gene expression in human IMR90 oncogene induced senescence

Project description:These data include the genome wide location analysis of Ogt by ChIP of Ogt in mouse ES cells. Precipitation of formaldehyde cross-linked chromatin prepared from mouse ES cell using specific antibody against OGT and IgG as control.

Project description:We performed ChIP-seq to chart genome-wide maps of H3K27me3 in brown preadipocytes and mature brown adipocytes. We observed a subset of brown fat-specific genes, but not common fat genes or white fat-specific genes, possess the H3K27me3 mark in preadipocytes, and this mark is erased in mature adipocytes. H3K27me3 ChIP-seq in brown preadipocytes and mature adipocytes.

Project description:A central question in biology is how enhancers are made accessible. The Drosophila embryo is a good model system to study this question as the gene regulatory networks regulating early developmental events have been well characterized. Zelda (Zld) is a uniformly distributed transcription factor (TF) integral to these networks, acting prior to and in collaboration with the patterning TFs to regulate target enhancers. Here we test the hypothesis that Zld directs TF binding, examplified by Dorsal (Dl) which patterns the dorsoventral axis, across the genome by displacing nucleosomes at enhancers. By performing ChIP-seq and MNase-seq experiments on early embryos with or without Zld, we demonstrated that early enhancers are characterized by an intrinsically high nucleosome barrier, which is overcome by Zld, and that without Zld, Dl binding decreases at enhancers and redistributes to open regions devoid of enhancer activity. We propose that enhancers are initially specified across the genome by the binding of Zld, which locally decreases nucleosome occupancy, thereby assisting TFs in accessing their binding motifs and promoting transcriptional activity. Zld, Dl, Pol II ChIP-seq and MNase-seq profiles comparing 2-3h wild-type (wt) and zld- embryos, and MNase-seq profiles comparing 2-4h wt and gd7 embryos, all in 2 replicates

Project description:During transcription the nascent RNA can invade the DNA template, forming extended RNA-DNA duplexes (R-loops). Here we employ ChIP-seq in strains expressing or lacking RNase H to map targets of RNase H activity throughout budding yeast genome. In wild-type strains, R-loops were readily detected over the 35S rDNA region transcribed by Pol I and over the 5S rDNA transcribed by Pol III. In strains lacking RNase H activity, R-loops were elevated over other Pol III genes notably tRNAs, SCR1 and U6 snRNA, and were also associated with the cDNAs of endogenous TY1 retrotransposons, which showed increased rates of mobility to the 5?-flanking regions of tRNA genes. Unexpectedly, R-loops were also associated with mitochondrial genes in the absence of RNase H1, but not of RNase H2. Finally, R-loops were detected on highly expressed protein-coding genes in the wild-type, notably over the second exon of spliced ribosomal protein genes. ChIP-seq of RNA-DNA hybrids using antibody S9.6

Project description:Carrying out both RNA-seq and Smad1/5 genome-wide chromatin immunoprecipitation and sequencing (ChIP-seq) analyses of mESCs in the naïve or primed states, we revisit the roles of BMP signaling in mESCs. RNA-seq analysis in 2 cell types; mESCs and ES-derived EpiSC (ESD-EpiSCs).

Project description:We explored the RNA binding properties of LINE-1 ORF1p, both free and in the L1 RNP, using a recently developed photoactivatable-ribonucleoside-enhanced crosslinking and immunoprecipitation technique (PAR-CLIP) to comprehensively identify ORF1p binding sites in the transcriptome of human cells (HEK293T). Our results show that ORF1p binds to a wide range of cellular mRNAs, with an enrichment for binding at the 3’ UTR. Our data also show that ORF1p binds very strongly with retrotransposable RNA, i.e., L1, Alu and SVA. PAR-CLIP analysis of L1 RNPs and free ORF1p RNA binding profiles, comparison to HuR RNA binding profile

Project description:Melanocytes within benign human nevi are the paradigm for tumor suppressive senescent cells in a pre-malignant neoplasm. These cells typically contain mutations in either the BRAF or N-RAS oncogene and express markers of senescence, including p16. However, a nevus can contain 10s to 100s of thousands of clonal melanocytes and approximately 20-30% of melanoma are thought to arise in association with a pre-existing nevus. Neither observation is indicative of fail-safe senescence-associated proliferation arrest and tumor suppression. We set out to better understand the status of nevus melanocytes. Proliferation-promoting Wnt target genes, such as cyclin D1 and c-myc, were repressed in oncogene-induced senescent melanocytes in vitro, and repression of Wnt signaling in these cells induced a senescent-like state. In contrast, cyclin D1 and c-myc were expressed in many melanocytes of human benign nevi. Specifically, activated Wnt signalling in nevi correlated inversely with nevus maturation, an established dermatopathological correlate of clinical benignancy. Single cell analyses of lone epidermal melanocytes and nevus melanocytes showed that expression of proliferation-promoting Wnt targets correlates with prior proliferative expansion of p16-expressing nevus melanocytes. In a mouse model, activation of Wnt signaling delayed, but did not bypass, senescence of oncogene-expressing melanocytes, leading to massive accumulation of proliferation-arrested, p16-positive non-malignant melanocytes. We conclude that clonal hyperproliferation of oncogene-expressing melanocytes to form a nevus is facilitated by transient delay of senescence due to activated Wnt signaling. The observation that activation of Wnt signaling correlates inversely with nevus maturation, an indicator of clinical benignancy, supports the notion that persistent destabilization of senescence by Wnt signaling contributes to the malignant potential of nevi. We used RNA-Seq to detail the global programme of gene expression in primary human melanocytes which were Uninfected and BRAF600V induced cells

Project description:Melanocytes within benign human nevi are the paradigm for tumor suppressive senescent cells in a pre-malignant neoplasm. These cells typically contain mutations in either the BRAF or N-RAS oncogene and express markers of senescence, including p16. However, a nevus can contain 10s to 100s of thousands of clonal melanocytes and approximately 20-30% of melanoma are thought to arise in association with a pre-existing nevus. Neither observation is indicative of fail-safe senescence-associated proliferation arrest and tumor suppression. We set out to better understand the status of nevus melanocytes. Proliferation-promoting Wnt target genes, such as cyclin D1 and c-myc, were repressed in oncogene-induced senescent melanocytes in vitro, and repression of Wnt signaling in these cells induced a senescent-like state. In contrast, cyclin D1 and c-myc were expressed in many melanocytes of human benign nevi. Specifically, activated Wnt signalling in nevi correlated inversely with nevus maturation, an established dermatopathological correlate of clinical benignancy. Single cell analyses of lone epidermal melanocytes and nevus melanocytes showed that expression of proliferation-promoting Wnt targets correlates with prior proliferative expansion of p16-expressing nevus melanocytes. In a mouse model, activation of Wnt signaling delayed, but did not bypass, senescence of oncogene-expressing melanocytes, leading to massive accumulation of proliferation-arrested, p16-positive non-malignant melanocytes. We conclude that clonal hyperproliferation of oncogene-expressing melanocytes to form a nevus is facilitated by transient delay of senescence due to activated Wnt signaling. The observation that activation of Wnt signaling correlates inversely with nevus maturation, an indicator of clinical benignancy, supports the notion that persistent destabilization of senescence by Wnt signaling contributes to the malignant potential of nevi. We used RNA-Seq to detail the global programme of gene expression in human melanoma cell lines