Project description:Expression data from LEOPARD Syndrome-iPS clones, BJ-iPS cells and parental Fibroblasts 9 samples in total are analyzed. Among 22011 genes in expression data, there are 3657 genes with at least 2 fold expression change between the average of the three fibroblast lines versus all of the iPS lines/HES samples. A heatmap can be generated for the expression levels for the 3657 genes and 9 samples.
Project description:Copy number variation analysis between BJ cells and BJ cells derived iPS cells which were established by using non-transmissible measles virus vector
Project description:We generated iPS cells with a synthetic self-replicative RNA that expresses four independent reprogramming factors (OCT4, KLF4, SOX2 and either c-MYC or GLIS1). We performed whole genome RNA sequencing (RNA-seq) of iPS cell clones, parental BJ and HUES9 ES cell controls. All iPS cell clones analyzed by RNA-seq showed unsupervised hierarchical clustering and expression signatures characteristic of human HUES9 ES cells that were highly divergent from parental human fibroblasts.
Project description:Copy number variation analysis between BJ cells and BJ cells derived iPS cells which were established by using non-transmissible measles virus vector DNA derived from BJ cell and iPS cells were extracted and analysis using CGH array
Project description:We generated iPS cells with a synthetic self-replicative RNA that expresses four independent reprogramming factors (OCT4, KLF4, SOX2 and either c-MYC or GLIS1). We performed whole genome RNA sequencing (RNA-seq) of iPS cell clones, parental BJ and HUES9 ES cell controls. All iPS cell clones analyzed by RNA-seq showed unsupervised hierarchical clustering and expression signatures characteristic of human HUES9 ES cells that were highly divergent from parental human fibroblasts. RNA-seq in two OKS-iM iPS clones (generated from OCT4, KLF4, SOX2 and cMYC expressing RNA replicon), two OKS-iG clones (generated from OCT4, KLF4, SOX2 and GLIS1 expressing RNA replicon), HUES9 and BJ cells.
Project description:We reprogrammed adult murine fibroblasts obtained from p14f/f (wt version of conditional loxP-flanked p14 knockout (KO); C57/Bl6) by transduction of a lentiviral vector (pRRL.PPT.SF.hOKSMco.idTom.PRE) overexpressing the four Yamanaka factors (c-Myc, Klf-4, Oct-4, Sox-2). After successful reprogramming and establishment of stable iPS clones we performed gene expression profiling of three different murine iPS clones (#2, #2EX, #3) and their parental fibroblasts.
Project description:7-dehydrocholesterol reductase catalyzes the reduction of 7-dehydrocholesterol to cholesterol. In Smith-Lemli-Opitz syndrome, mutations in DHCR7 prevents this conversion. We have found iPS cells derived from SLOS patients exhibit accelerated differentiation under cholesterol poor conditions. In this dataset, we include expression data obtained from comparision of a control iPS cell line (BJ) and a SLOS iPS cell line (A2). Cell line gene expression was compared in cholesterol rich conditions where the SLOS phenotype is suppressed. Cholesterol deficient culture of control and SLOS iPS cells demonstrated enhanced differentiation of SLOS cells over 7 days. These data are used to obtain 308 genes that are differentially expressed upon cholesterol deficient culture. time-course expression data obtained from control and SLOS patient iPS cells after transfer from cholesterol rich to cholesterol deficient culture. 48 total RNA samples were isolated and hybridized on Affymetrix arrays. We generated the following pairwise comparisons using Partek: BJ 0hr vs A2 0hr; BJ 2Day vs A2 2Day; BJ 3Day vs A2 3Day; BJ 4Day vs A2 4Day; BJ 5Day vs A2 5Day; BJ 7Day vs A2 7Day. Genes with an FDR≤10% and a fold-change ≥3 were identified as significantly different. We also performed pairwise comparison of BJ and A2 samples within each cell line between subsequent isolations (i.e. BJ 0hr vs BJ 2Day; A2 3Day vs A2 4Day; etc.)
Project description:7-dehydrocholesterol reductase catalyzes the reduction of 7-dehydrocholesterol to cholesterol. In Smith-Lemli-Opitz syndrome, mutations in DHCR7 prevents this conversion. We have found iPS cells derived from SLOS patients exhibit accelerated differentiation under cholesterol poor conditions. In this dataset, we include expression data obtained from comparision of a control iPS cell line (BJ) and a SLOS iPS cell line (A2). Cell line gene expression was compared in cholesterol rich conditions where the SLOS phenotype is suppressed. Cholesterol deficient culture of control and SLOS iPS cells demonstrated enhanced differentiation of SLOS cells over 7 days. These data are used to obtain 308 genes that are differentially expressed upon cholesterol deficient culture. time-course expression data obtained from control and SLOS patient iPS cells after transfer from cholesterol rich to cholesterol deficient culture.
Project description:We used heterokaryon cell fusion based reprogramming and identified the cytokine IL6 as a potential regulator of reprogramming to pluripotency. We generated iPS clones using the four reprogramming factors (4F) Oct4, Klf4, Sox2, and c-Myc. In addition, iPS clones were generated using only three factors (3F: Oct4, Klf4, amd Sox2) with the addition of the cytokine IL6 to reprogramming culture conditions. Global RNA-Seq of the 3F + IL6 derived iPS clones was done for comparison with 4F-derived iPS clones, mouse embryonic stem cells and mouse embryonic fibroblasts.