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

Project description:the gene expression profiling results provide important information for the genes regulated by crosstalk between Shp2 and Pten mediated signal pathways Total RNA was extracted from CD71mid Ter119high erythroblasts isolated from the bone marrow of wide type, Shp2 knock-out, Pten knock-out and double knock-out mice

Project description:Comparison of the transcriptome of Wildtype versus Murf1/2 double Knock Out (dKO) mouse hearts is analyzed

Project description:Transcriptome of single and double pannexin1-knock out zebrafish lines

Project description:Frataxin deficiency in human is the cause of Friedreich's ataxia (FA), a lethal neuro- and cardio-degenerative disease. Knock-out (KO) mice of this mouse model of FA exhibit classical cardiomyopathy of the patients. The onset of FA phenotypes in the KO mice is approximately 6-7 weeks of age. This genearray analysis was conducted to examine the changes in gene expression in the heart of KO mice relative to their wild-type (WT) littermates at 4- and 10-weeks of age. At 10-weeks of age, the KO mice begin to die from severe cardiomyopathy. RNA from the heart of four female 4-week-old MCK littermates (two WT and two KO) and four female 10-week-old MCK littermates (two WT and two KO) was extracted and hybridised to Affymetrix Mouse Genome 430 2.0 Array.

Project description:Effect of heat stress on wildtype COL-0 Arabidopsis and hsf4-7 double knock out plants.

Project description:Goal: elucidate transcriptomic changes upon knock-out of components of the FERRY complex Methods: RNA extraction from HeLa wildtype and fy-1, fy-2, fy-4 and fy-5 knock-out celllines and subsequent RNASeq Results: We observed differences in the transcriptome of all four knock-out cell lines Conclusions: In the Analysis we focused on genes that were differentially expressed in all four KO cell lines or upon KO of fy-1 and fy-2.

Project description:Both CLN1 and CLN5 deficiency leads to severe neurodegenerative diseases of childhood, known as neuronal ceroid lipofuscinoses (NCL). The broadly similar phenotypes of NCL mouse models, and the potential for interactions between NCL proteins, raise the possibility of shared or converging disease mechanisms. To begin addressing these issues we have developed a novel mouse model lacking both Cln1 and Cln5 genes. These Cln1/5 double knock-out (Cln1/5 dko) mice were fertile, showing a slight decrease in expected Mendelian breeding ratios, as well as impaired embryoid body formation of induced pluripotent stem cells derived from Cln1/5 dko fibroblasts. Typical manifestations of the NCL diseases, seizures and motor dysfunction, were detected at the age of 3 months, earlier than in either single knock-out mouse. Pathological analyses revealed a similar exacerbation and earlier onset of disease in Cln1/5 dko mice, which exhibit a pronounced accumulation of autofluorescent storage material. Cortical demyelination and more pronounced glial activation in cortical and thalamic regions was followed by cortical neuron loss. Alterations in lipid metabolism in Cln1/5 dko showed specifically an increase in serum phospholipid transfer protein (PLTP) activity. Finally, gene expression profiling of Cln1/5 dko cortex revealed defects in myelination and immune response pathways, with a prominent downregulation of alpha-synuclein in Cln1/5 dko mouse brains. The simultaneous loss of both Cln1 and Cln5 genes may enhance the typical pathological phenotypes of these mice by disrupting down shared or convergent pathogenic pathways, which may potentially include interactions of CLN1 and CLN5. Basic characterization of Cln1/5 double knock-out mouse model. Aim was to find possible differentially expressed genes and up-or downregulated pathways in Cln1/5 double knock-out vs. wild-type mouse cortex. Total RNA isolated from 1 month old Cln1-/-/Cln5-/- mouse cortex.

Project description:RNA sequencing data of Ing4 Ing5 double knock-out embryonic mouse hearts

Project description:Fz2-Fz7 double knock-out E8.5 mouse