Project description:Effect of Fut8 deletion in MEF Fut8MEF was cultured in 10cm dish (WT,KO n=3). The MEFs were submitted this microarray analysis to compare the gene expression between Fut8+/+ and Fut8-/- MEFs.

Project description:Expression profiles in WT MEF at different circadian time point after dexamethasone synchronyzation.

Project description:This SuperSeries is composed of the following subset Series: GSE40734: The effect on gene expression of Smchd1 deletion in primary MEFs, transformed MEFs and MEF tumours GSE40879: The effect on gene expression of Smchd1 deletion in pre-B cells from E17.5 Eµ-Myc embryos GSE40880: The effect on gene expression of Smchd1 deletion in end stage lymphomas GSE40881: The effect on gene expression of Smchd1 deletion in premalignant pre-B cells Refer to the individual subSeries. NOTE: all the cell types need to be analyzed separately.

Project description:Usp16 deletion-induced gene expression in MEFs

Project description:To explore transcriptomic mechanisms underlying the cooperative effect in the proliferative phenotype, we harvest MEFs of different genotypes (KA, K, A, WT) recombined and un-recombined. We performed RNA-seq analysis on 5 recombined (Ad-CMV-Cre) cell lines of each genotypic conditions (WT, Arid1a L/L , Kras-LSL-G12D, and Kras-LSL-G12D; Arid1a L/L) as well as 2 or 3 un-recombined (Ad-CMV-GFP) or mock-infected MEF cell lines.

Project description:Expression profiles in WT MEF at different circadian time point after dexamethasone synchronization. We used the Affymetrix expression microarrays to detail the circadian gene expression from wild type mouse embryonic fibroblasts during a 24 hour circadian cycle. For each circadian time point (CT), three biological replicates were analyzed.

Project description:Global gene expression patterns of the iCMs shift from a MEF state toward a cardiac-like phenotype by Gata4/Mef2c/Tbx5 (GMT) or GMT/Hand2 (GHMT) transduction at 2 and 4 weeks after transduction (2W, 4W). Hand2 upregulated a panel of cardiac genes and suppressed cell cylce genes during cardiac reprogramming.

Project description:Overexpression of fucosyltransferase 8 (FUT8) is found in many cancers including liver, ovarian, thyroid, colorectal and non-small cell lung cancers. Unlike other FUTs which are functionally redundant, FUT8 is the only enzyme responsible for the alpha1,6-linked fucosylation (core fucosylation) by adding fucose to the innermost GlcNAc residue of an N-linked glycan. A growing body of evidence indicates that core fucosylation is important for regulating protein functions, such as EGFR, TGF beta receptor and integrins. To understand the downstream molecular events in response to the global alteration of core fucosylation during cancer progression, microarray analysis was employed to profile the changes in gene expression following FUT8 silencing. The genes significantly (2-fold, P<0.01) changed in CL1-5/shFUT8 cells were selected for functional annotations using a Gene Ontology database. The result revealed that many genes involved in cell adhesion, motility, growth, angiogenesis, and inflammation were under the control of core fucosylation.

Project description:Effect of PME-1 knockout on MEF gene expression

Project description:Global gene expression patterns of the iCMs shift from a MEF state toward a cardiac-like phenotype by Gata4/Mef2c/Tbx5 (GMT) or GMT/miR-133 transduction at 3, 7 and 18 days after transduction (D3, D7 and D18) MiR-133 silenced fibroblast signatures in parallel with cardiac gene activation, and Snai1 overexpression inhibited the effects of miR-133-mediated cardiac reprogramming.