Project description:Inherited TTC7A loss of function mutations causes intestinal and immune deficiency. TTC7A is expressed in hematopoietic and epithelial cells however its cellular function remains poorly understood. In this work we provided evidence that TTC7A is an intrinsic nucleus factor. In an attempt to link the function of TTC7A in chromatin compaction, histone modifications and general transcriptional regulation we undertook to map the observed interaction of TTC7A to chromatin genome-wide by ChiP-Seq of Flag-tagged WT_TTC7A expressed in B lymphoblastoid cell lines using two anti-Flag antibodies (hereafter IP-Flag1 and IP-Flag2).

Project description:Bivalent chromatin domains consisting of the activating histone 3 lysine 4 trimethylation (H3K4me3) and repressive histone 3 lysine 27 trimethylation (H3K27me3) histone modifications are enriched at developmental genes that are repressed in embryonic stem cells but active during differentiation. However, it is unknown whether another repressive histone modification, histone 4 lysine 20 trimethylation (H4K20me3), co-localizes with activating histone marks in ES cells. Here, we describe the previously uncharacterized coupling of the repressive H4K20me3 heterochromatin mark with the activating histone modifications H3K4me3 and histone 3 lysine 36 trimethylation (H3K36me3), and transcriptional machinery (RNA polymerase II; RNAPII), in ES cells. These newly described bivalent domains consisting of H3K4me3/H4K20me3 are predominantly located in intergenic regions and near transcriptional start sites of active genes, while H3K36me3/H4K20me3 are located in intergenic regions and within gene body regions of active genes. Global sequential ChIP, also termed reChIP-Seq, confirmed the simultaneous presence of H3K4me3 and H4K20me3 at the same genomic regions in ES cells. Genes containing H3K4me3/H4K20me3 exhibit decreased RNAPII pausing and are poised for deactivation of RNAPII binding during differentiation relative to H3K4me3 marked genes. An evaluation of transcription factor (TF) binding motif enrichment revealed that DNA sequence may play a role in shaping the landscape of these novel bivalent domains. Moreover, H3K4me3/H4K20me3 and H3K36me3/H4K20me3 bound regions are enriched with repetitive LINE and LTR elements.

Project description:LncRNAs and open chromatin regions constitute midbrain dopaminergic neuron- specific molecular signatures

Project description:Novel O-GlcNAcylation on Thr71 of histone H4 preferentially localizes to active gene regions

Project description:Tissue-specific chromatin accessibility cis-regulatory regions in rat white adipose and muscle

Project description:H4K20me3 co-localizes with activating histone modifications at transcriptionally dynamic regions in embryonic stem cells

Project description:Our understanding of the functions of DNA elements is limited by the paucity of information about the spectrum of proteins that occupy these genomic regions. Here we describe an approach to identify proteins associated with genomic regions whose chromatin is marked by specific modified histones, which we term chromatin profiling. We used chromatin immunoprecipitation followed by mass spectrometry (ChIP-MS) to identify proteins associated with genomic regions marked by histone H3K27Ac, H3K4me3, H3K79me2 and H3K36me3 in mouse embryonic stem (mES) cells. We identified 385 known and 224 novel candidate proteins associated with these histone-marked genomic segments and confirmed that several of the novel candidates are indeed associated with histone-marked segments of the genome. Future study of the novel candidates, many of which have been implicated in various diseases, should lead to an improved understanding of gene control and its dysregulation in disease. ChIP-seq for nucleosomes with modified histones and DNA-binding proteins in mouse embryonic stem cells, and DNA-binding proteins in Jurkat cells

Project description:Neuron-specific chromatin disruption at CpG islands and aging-related regions in Kabuki syndrome mice

Project description:Haplotype-specific chromatin looping reveals genetic interactions of regulatory regions modulating gene expression in 8p23.1

Project description:Profiling open chromatin regions in human myometrial tissues