Project description:We utilized RNA-seq analysis to examine the loss of RNaseH2B in the mouse cerebellum over time. We have looked at single and compound mutant knockouts at ages from postnatal day five, postnatal day twenty-eight and nine-week-old animals.

Project description:Native MS analysis of single mutant and double mutant cycle experiments. See: https://www.biorxiv.org/content/10.1101/2023.09.19.558516v1

Project description:Using MethylC-Seq to provide single-base resolution of DNA methylation status in idm2 single mutant and idm1idm2 double mutant MethylC-Seq: 2 mutants examined, idm2 single mutant (two biological replicates) and idm1idm2 double mutant

Project description:We analyzed transcriptome profiles of 21,119 single cells of the postnatal mouse cerebellum and identified 8 main cell clusters (Granule precursors, Granule cells, Astrocytes, Interneurons, Oligodendrocytes, Microglia, Purkinje cells, Endothelial cells).

Project description:Bergmann glial cells of the vertebrate cerebellum play essential roles in the development and maintenance of cerebellar structure and function. During development, Bergmann glia provide structural support to the expanding cerebellar anlage and also serve as guides for migrating neurons (granule cells). As the cerebellum matures, Bergmann glia become important in dendritic arborization, synapse maintenance and synaptic function. The molecular mechanisms underlying these diverse and important functions of Bergmann glia remain largely unknown. We used microarray analysis to examine global gene expression in individual Bergmann glial cells derived at P6 (a time of extensive neuronal migration and cerebellar growth) and at P30 (when cerebellar development is complete and Bergmann glia play important roles at synapses). After gentle dissociation of cerebellar tissue derived from mice expressing GFP under the GFAP gene promoter (GFAP-GFP mice) (Zhuo, L., et al., 1997, Developmental biology), single GFP-positive Bergmann glial cells were aspirated into microcapillary tubes. Amplified cDNAs were prepared from single cells using RT-PCR and hybridized to Affymetrix GeneChip Mouse Genome 430 2.0 expression arrays (one array per cell). Five P6 cells and five P30 cells were used to generate the data presented in this study.

Project description:Lipidomics data from mouse cerebellum; Treated with wild-type and mutant WNV, and mockulum

Project description:Single-cell transcriptomic and epigenetic analyses in the embryonic mouse cerebellum

Project description:Metabolomics data from mouse cerebellum; Treated with wild-type and mutant WNV, and mockulum

Project description:Proteomics data from mouse cerebellum; Treated with wild-type and mutant WNV, and mockulum

Project description:DREAM (downstream regulatory element antagonist modulator) is a Ca2+-binding protein that binds DNA and represses transcription in a Ca2+-dependent manner. Previous studies have shown a role for DREAM in cerebellar function regulating the expression of the sodium/calcium exchanger3 (NCX3) in cerebellar granules to control Ca2+ homeostasis and survival of these neurons. To achieve a more global view of the genes regulated by DREAM in the cerebellum, we performed a genome-wide analysis in transgenic cerebellum expressing a Ca2+-insensitive/CREB-independent dominant active mutant DREAM (daDREAM). Our results indicate that DREAM is a major transcription factor in the cerebellum that regulates genes important for cerebellar development.