Project description:Transcriptome analysis of Prdm10 maternal knock out mouse oocytes

Project description:Mouse HFD Liver Skeletal Muscle SLC16A13 Knock-Out

Project description:Next Generation Sequencing Facilitates Quantitative Analysis of control, SETD6 Knock-out, SETD3 knock-out and SETD6+SETD3 knock-out HeLa cells Transcriptomes

Project description:Fz2Fz7 double knock out mouse microarray (E8.5)

Project description:We analyzed the proteomic changes that occur in a Fbxl4 knock-out 1-year mouse. We analyzed Liver tissue using a 6-plex TMT approach (3 KO and 3 controls). Since we observed a global decrease in mitochondrial proteins, we also explored mitoproteome changes in different tissues (liver, kidney and heart) using a label-free approach. Finally, we also did a 6-plex TMT to analize the proteomic changes in 3 patient-derived fibroblast lines compared to 3 control lines and correlated them with the results obtained in the mouse model. All together, these experiments revealed that Fbxl4 deficiency leads to a decreased mitochondrial content without major changes in mitochondria itself, pointing to an increased turnover.

Project description:Purpose: Histone demethylase Kdm1a affected mouse SCLC progression through many down-stream factors or pathways. RNA-seq of mouse SCLC cell lines with or without Kdm1a knock-out was used to find the most enriched pathways in Kdm1a knock-out cells Methods: Total mRNA profiles of control (Crispr-V2) or Kdm1a knock-out mouse SCLC cell lines (Kdm1a-sg1, Kdm1a-sg2) were generated by deep sequencing, using Illumina Hiseq platform and 125 bp/150 bp paired-end reads. Index of the reference genome was built using Bowtie v2.2.3 and paired-end clean reads were aligned to the reference genome using TopHat v2.0.12. qRT–PCR validation was performed using TaqMan and SYBR Green assays Results: Using an optimized data analysis workflow, we mapped about 30 million sequence reads per sample to the mouse genome (build mm9). Commonly differential expression after Kdm1a knock-out with two different single guide RNAs to control mouse SCLC cells were selected with a fold change ≥1.5. Conclusions: Our data showed four Rest related pathways, including negative cell proliferation, negative cell differentiation, positive regulation of programmed cell death enriched, in commonly up-regulated genes after Kdm1a knock-out with twe different single guide RNAs. Meanwhile, the commonly down-regulated genes were mostly enriched in neron related pathways. These result illustrated the Kdm1a depletion inhibited mouse SCLC progression, defected its neuroendocrine phenotype through the up-regulation of Rest.

Project description:Transcriptome profiling of Bma1 knock out mouse by RNASeq

Project description:Constitutive Piezo 1 knock out in mouse brain development

Project description:Vimentin knock out mouse neural stem cell RNA sequencing

Project description:Dysregulation of gene expression in SCGB3A2 Knock-out mouse