Project description:Comparison of expression levels of the genes on chromosome 22 in the peripheral blood mononuclear cells at various time points after stimulation with HIV-gag and env peptides

Project description:Non-mammalian vertebrates have a robust ability to regenerate injured retinal neurons from Müller glia cells (MG) that activate the proneural factor Achaete-scute homolog 1 (Ascl1/Mash1) and de-differentiate into progenitors cells. In contrast, mammalian MG have a limited regenerative response and fail to upregulate Ascl1 after injury. To test whether Ascl1 could restore a neurogenic potential to mammalian MG, we over-expressed Ascl1 in dissociated mouse MG cultures and intact retinal explants. Ascl1-infected MG upregulate retinal progenitor-specific genes, while downregulating glial genes. Furthermore, Ascl1 remodeled the chromatin at its targets from a repressive to active configuration. MG-derived progenitors differentiated into cells that exhibited neuronal morphologies, expressed retinal subtype-specific neuronal markers, and displayed neuron-like physiological responses. These results indicate that a single transcription factor, Ascl1, can produce a neurogenic state in mature Muller glia. Expresssion profiling was used to determine the genes that were changed after Ascl1 infection of P12 cultured Müller glia compared with those present in P0 progenitors and P7-P21 Müller glia Retinas were dissociated and FAC-sorted from Hes5-GFP mice at P0, P7, P10, P14 or P21 and submitted for profiling. WT Retinas were dissociated at P12, grown for 1 week in culture, and infected with lentiviruses expressing Ascl1 or GFP for four days. Total RNA was extracted and submitted for profiling.

Project description:Human neural organoid models have become an important tool for studying neurobiology. In this work, we compared Matrigel to an N-cadherin peptide-functionalized gelatin methacryloyl hydrogel (termed GelMA-Cad) for culturing cortical neural organoids. Specifically, we compare five materials: (1) Matrigel, (2) GelMA-Cad with high crosslinker (HC), (3) GelMA-Cad with low crosslinker (LC), (4) GelMA HC and (5) GelMA LC. We profiled these organoids at the earliest stages to understand potential differences in radial glia formation.

Project description:In this experiment, we've examined chromatin conformation of OG2 (B6; CBA-Tg(Pou5f1-EGFP)2Mnn/J; stock number 004654) mouse stem cells cultured as described in (Shi et al., 2008), using different amounts of starting cells. We performed a modified in situ Hi-C protocol for 6 samples digested with MboI restriction enzyme having as starting material 1 million (M), 100 thousand (k), 50k, 25k, 10k or 1k cells. As well as, to 2 samples digested with HindIII restriction enzyme that had as starting material 5M or 100k cells. Traditional in situ Hi-C protocols recommend 5-10 million starting cells. The aim of the experiment was to assess the impact of decreasing the cell number on reproducibility, library complexity, chromatin structure visualization in order to adapt the method to the study of rare cell populations. Furthermore, we have characterised the 3D structure of peripheral blood mononuclear cells (PBMCs) obtained from a blood extraction from a healthy donor and from a lymph node biopsy from a DLBCL patient as a proof of concept for the suitability of Low-C for rare cell population analysis.

Project description:Expression profiling of Ascl1-reprogrammed P12 Müller glia compared with freshly dissociated progenitors and Müller glia

Project description:Understanding which proteins are presented at the cell surface is essential for ongoing therapeutic development, and to expand our basic understanding of biology. We envisioned the integration of cell surface engineering with radical-mediated protein biotinylation to profile cell surface proteins (CSPs). This method relies on the pre-functionalization of cells with cholesterol lipid groups, followed by their conjugation with an APEX2 ascorbate peroxidase enzyme. The APEX2 enzyme allows for the covalent conjugation of biotin moieties to nearby residues for subsequent enrichment, and serves as a tool for the enrichment and subsequent MS analysis of CSPs.

Project description:Retroviruses exploit a variety of host proteins to assemble and release virions from infected cells. To date, most studies that examined possible interacting partners of retroviral Gag proteins focused on host proteins that localize primarily to the cytoplasm or plasma membrane. Given the recent findings that several full-length Gag proteins localize to the nucleus, identifying the Gag-nuclear interactome has high potential for novel findings that reveal previously unknown host processes. This dataset contains results from a mass spectrometry approach using affinity-tagged (His6) HIV-1 and RSV Gag proteins mixed with nuclear extracts, and identifies potential binding partners of HIV-1 and RSV Gag involved in several nuclear processes, including transcription, splicing, RNA modification, and chromatin structure. Although a subset of host proteins interacted with both Gag proteins, there were also unique host proteins belonging to each interactome dataset. These results provide a strong premise for future functional studies to investigate roles for these nuclear host factors that may have shared functions in the biology of both retroviruses, as well as functions specific to RSV and HIV-1, given their distinctive hosts and molecular pathology.

Project description:To identify CdbA binding sites on Myxococcus xanthus genome in vivo we performed ChIP-seq, using a polyclonal anti-FLAG antibody and a strain endogenously expressing CdbA_3xFLAG. A WT DK1622 strain was used a negative control and a strain endogenously expressing ParB_3xFLAG was used as positive control.

Project description:In this study, we performed temporal profiling of transcriptome and chromatin accessibility in HL-1 cells for understanding the molecular mechanisms underlying cardiac responses to hypoxia. We collected HL-1 cells under four conditions (4 h and 8 h of hypoxia exposure, 24 h reoxygenation and the normal condition), applied RNA-seq and ATAC-seq to them and performed pairwise comparison of gene expression and open chromatin status on a genome-wide scale.

Project description:This dataset consists of in situ HiC-seq data from human monocytes, monocyte-derived dendritic cells as well as monocyte-derived cells that were subjected to siRNA treatment targeting CTCF or RAD21. In total, the data set includes 42 samples.