Project description:Genome-wide ChIP-Seq of H3K27ac in β-actin KO MEFs expressing NLS-tagged beta-actin to assess the role of nulcear actin in regulating histone acetylation

Project description:Genome-wide ChIP-Seq of H3K27ac in WT and β-actin KO MEFs to assess the role of nulcear actin in regulating histone acetylation

Project description:mRNA profiles of chemically reprogrammed osteoblasts from Beta-actin Wildtype (WT) Heterozygotes (HET) and knockout (KO) Mouse Embryonic Fibroblast (MEFs)

Project description:mRNA profiles of beta-actin knockout (KO) MEFs stimulated by viral mimics to study how global transcriptome changes after innate viral immunity activation

Project description:mRNA profiles of beta-actin knockout (KO) and wild-type (WT) MEFs induced to adipocyte-like feature to study how global transcriptome changes during differentiation

Project description:Purpose: The goals of this study are to use NGS to perform transcriptome profiling (RNA-seq) to find the difference of the transcriptomes of chemically induced neurons from wild type (WT), Actb+/- (HET) and Actb-/- (KO) mouse embryonic fibroblasts. Methods: MEFs were reprogramed into neurons by small chemical cocktails. Small chemical molecules were dissolved and diluted in DMSO and used at the following final concentrations: ISX9: 20 mM; Forskolin: 50 mM; CHIR99021: 20 mM; and I-BET151: 2 mM. In addition to the small molecules, the neuron induction medium (Neurobasal Medium) contains the following supplements: N2 (1X) and B27 (2X) supplements, GlutaMAX (1X), penicillin-streptomycin (100 µg/ml), bFGF (20 ng/ml), 100 µM cAMP, Non-essential Amino Acid (1X) and Trace element B (1X). MEFs were seeded to Matrigel-coated plate (1:30 dilution in pre-cold PBS and coat overnight at 4 oC, at a density of 200,000 cells per well in 6-well plate and 10,000 cells/well in 96 well plate. The MEFs were cultured in DMEM until confluent. When the cells are confluent, the DMEM was replaced with neuron induction medium with 4 small molecules. The induction medium was refreshed every two days for the first week and every 3 days for the remaining induction period until day 20. 3 biological replicates of total RNA were used for RNA-seq library preparation. Results: Using an optimized data analysis workflow, we identified neuronal gene programs induced during direct reprograming. The induction of neuronal programs were impaired in neurons from Actb-/- mouse embryonic fibroblasts. Conclusions: Our study shows that neuronal program induction was impaired in chemically induced neurons from Actb-/- mouse embryonic fibroblasts.

Project description:Using Chromatin-immunoprecipitation and NGS, we investigated the binding of TFAM protein at mitochondrial genome between Actb+/+ Wild Type (WT) and Actb-/- (KO) Mouse Embryonic Fibroblast

Project description:Transcriptional profiling of primary Cdk7lox/lox MEFs comparing Adeno-Cre vs Adeno-GFP infected controls. Samples were obtained 7 days after the Adeno-Cre mediated elimination of Cdk7. Goal was to determine the effects of Cdk7 elimination on RNA polII-mediated transcription. Two-condition experiment, Adeno-Cre vs. Adeno-GFP infected Cdk7lox/lox MEFs. Biological replicates: 10 independent primary MEF preparations.

Project description:We used whole exome sequence to identify de novo mutations in patients with ocular coloboma. Three of these encoded actin pathway components, ACTG1, TWF1 and LCP1. Mass spectrometry-based interactomes of wild-type and mutant proteins were performed to reveal altered functional interactions for all three variants.

Project description:Lack of cytoplasmic beta-actin gene (Actb) leads to early embryonic lethality in mice, however targeted editing of Actb coding sequence by introducing five point mutations to encode cytoplasmic gamma-actin protein does not affect mouse viability. These mice with beta to gamma actin replacement (Actbc-g mice) develop normally and show no detectable phenotypes at young age, despite complete lack of beta-actin protein. Here we investigated the effect of the replacement of beta-actin with gamma-actin in the retina.