Project description:Comparison between wildtype and Gata2b heterozygous zebrafish HSPCs

Project description:Comparison of gene expression differences between Dnmt3L heterozygous and wildtype pachytene spermatocytes, and similarly between Dnmt3L heterozygous and wildtype round spermatids which were isolated from the Dnmt3L knockout mouse line. This array was conducted to address the hypothesis that Dnmt3L heterozygosity results in deregulated gene expression within spermatocytes and spermatids. Results show that Dnmt3L heterozygosity causes numerous genes to be differentially regulated on a genome-wide level, showing that DNMT3L has an important role in regulating gene expression within these male germ cells.

Project description:Comparison of gene expression differences between Dnmt3L heterozygous and wildtype pachytene spermatocytes, and similarly between Dnmt3L heterozygous and wildtype round spermatids which were isolated from the Dnmt3L knockout mouse line. This array was conducted to address the hypothesis that Dnmt3L heterozygosity results in deregulated gene expression within spermatocytes and spermatids. Results show that Dnmt3L heterozygosity causes numerous genes to be differentially regulated on a genome-wide level, showing that DNMT3L has an important role in regulating gene expression within these male germ cells. Three preparations each of Dnmt3L purified wildtype spermatocytes, wildtype spermatids, heterozygous spermatids, and two preparations of heterozygous spermatocytes were isolated for a total of 11 samples. Each preparation was made up of cells isolated from 10 mice.

Project description:The aim of this experiment was to investigate the dysregulation of gene expression in whole E12.5 embryos containing a gene trap (CH) or point mutation (H275R) within the Klf3 gene Affymetrix microarrays were performed on RNA from wildtype, Klf3 H275R/H275R, Klf3 H275R/+, Klf3 CH homozygous and Klf3 CH heterozygous E12.5 embryos Four wildtype replicates, three Klf3 H275R/H275R replicates, four Klf3 H275R/+ replicates, four Klf3 CH homozygous replicates and two Klf3 CH heterozygous replicates of whole E12.5 embryos, litter-matched where possible.

Project description:The aim of this experiment was to investigate the dysregulation of gene expression in whole E12.5 embryos containing a gene trap (CH) or point mutation (H275R) within the Klf3 gene Affymetrix microarrays were performed on RNA from wildtype, Klf3 H275R/H275R, Klf3 H275R/+, Klf3 CH homozygous and Klf3 CH heterozygous E12.5 embryos

Project description:To explore the loss of Dullurd function in mouse embryo development, we have performed the Agilent microarray analysis between a Dullard-heterozygous and a Dullard-homozygous E7.5 embryo. Our findings show that Dullard does not act in concert with BMP4 and Smad1/5/8, whereas loss of Dullard is associated with a reduced level of WNT/β-catenin signaling activity, accompanied by elevated expression of Wnt3 and WNT antagonists including Dkk1, Sfrp1 and Sfrp5 in mouse germ cell formation. E7.5 mouse embryos were collected. One Dullard-heterozygous embryo and one Dullard-homozygous embryo were used for the analysis.

Project description:The zebrafish is a powerful model for the study of hematopoietic stem and progenitor cells (HSPC). We have developed a novel HSPC-specific transgenic line (Runx1+23:GFP). We have used this line in time-lapse live imaging studies to track the migration of HSPC during development. We have also performed a chemical genetic screen to find small molecules that modulate HSPC numbers during development. Treating embryos from 2-3 days post fertilization (2-3 dpf) then fixing for in situ staining with HSPC probes cmyb and runx1, we found the compound lycorine increased HSPC numbers. Applying this compound during time-lapse live imaging showed increased accumulation of Runx+ HSPC in the caudal hematopoietic tissue (CHT). Treatment from 2-3 dpf, then washing off the compound, had a sustained effect on the size of the HSPC with Runx+ numbers higher at 5 and 7 dpf. We have performed microarray analysis to elucidate the molecular changes within HSPC and endothelial cells after Lycorine treatment. We treated Runx1+23:GFP;kdrl:DsRed2 embryos from 2-3 dpf with 75 uM lycorine in 1% DMSO. We then dissociated the embryos and sorted the Runx+ GFP cells, the kdrl+ DsRed2 cells, and the non-fluorescent negative cells from the total embryo as a comparator population. Total RNA was amplified and biotin labled for hybridization on Affymetrix microarrays. 18 samples were collected and analyzed. There are 3 biological replicates. There are 3 cell type populations: 1) Runx+ HSPC; 2) kdrl+ endothelial cells; 3) non-fluorescent negative cells. There are cell populations from dissociated Lycorine-treated embryo pools, and control DMSO-treated embryo pools.

Project description:This is an integrative genome-wide approach to identify downstream networks controlled by Pax6 during mouse lens and forebrain development. Differential gene expression was analyzed in Pax6 mouse heterozygous and wildtype newborn mouse lenses, with subsequent comparison of this data with Pax6 forebrain expression data (Holm et al., 2007). Experiment Overall Design: Three biological replicate experiments were performed from wildtype and heterozygote mice.

Project description:To explore the loss of Dullurd function in mouse embryo development, we have performed the Agilent microarray analysis between a Dullard-heterozygous and a Dullard-homozygous E7.5 embryo. Our findings show that Dullard does not act in concert with BMP4 and Smad1/5/8, whereas loss of Dullard is associated with a reduced level of WNT/β-catenin signaling activity, accompanied by elevated expression of Wnt3 and WNT antagonists including Dkk1, Sfrp1 and Sfrp5 in mouse germ cell formation.

Project description:Cy3-labeled cDNA from brains of neonatal C57BL Cx43 null, Cx43 heterozygous and Cx32 null mice were compared among themselves and to Cy3-labeled cDNA from brains of neonatal C57BL wildtype mice through Cy5-labeled sample reference prepared at once for the entire experiment from aorta, brain, heart, kidney, liver, lung, ovary/testicles, spleen, and stomach - equal amounts from adult male and female C57BL mice.