Project description:Antarctica Stoichiometry Targeted loci

Project description:The purpose of this experiment is to examine the cellular and molecular changes in the microglia and other non-neuron cells in the hippocampus of 7 month old Mr1+/+ and Mr1-/- mice.

Project description:Goal of the experiment: Analysis of gene expression changes in the cortex, striatum, hippocampus, hypothalamus, Drd2-MSNs and Drd1-MSNs of mice with a postnatal, neuron-specific ablation of GLP or G9a as compared to control mice.

Project description:Goal of the experiment: Analysis of gene expression changes in the cortex, striatum, hippocampus, hypothalamus, Drd2-MSNs and Drd1-MSNs of mice with a postnatal, neuron-specific ablation of GLP or G9a as compared to control mice. For microarray analysis, hippocampus, hypothalamus, cortex and striatum of Camk2a-Cre; GLPfl/fl, Camk2a-Cre; G9afl/fl and age (10-14 week old) and sex matched littermate controls were used for total RNA purification. Four biological replicates were performed for each experiment. Polyribosome associated mRNAs from five, age (10-14 week old) and sex matched Drd1-Cre; Drd1-bacTRAP; G9afl/fl, or Drd2-Cre; Drd2-bacTRAP; G9afl/fl and Drd1-bacTRAP; G9afl/fl or Drd2-bacTRAP; G9afl/fl control mice were used. Three biological replicates were performed for each experiment.

Project description:Epigenetically bistable regions across neuron-specific genes govern neuron eligibility to a coding ensemble in the hippocampus

Project description:Global gene expression profile of Tet1 knocout cortex or hippocampus is compared to wild-type cortex or hippocampus. All mice used are naM-CM-/ve and of mixed 129 C57BL6 backgound. Tet1 KO in brain cortex and hippocampus

Project description:Analysis of mouse genes showing a sex difference in gene expression in the cortex and hippocampus on the day of birth 17 samples, all collected on the afternoon of birth (1pm-3pm local), including 9 male and 8 female samples. All samples include both cortex and hippocampus dissected out from other brain.

Project description:Global gene expression profile of Tet1 knocout cortex or hippocampus is compared to wild-type cortex or hippocampus. All mice used are naïve and of mixed 129 C57BL6 backgound.

Project description:Sensory inputs activate sparse ensembles of neurons in the dentate gyrus of the hippocampus, but how eligibility of individual neurons to recruitment is determined remains elusive. We identified thousands of largely bistable (CpG methylated or unmethylated) regions within neuronal gene bodies, established during mouse dentate gyrus development. Reducing DNA methylation and the proportion of the methylated epialleles at bistable regions compromised novel context-induced neuronal activation. Conversely, increasing methylation and the frequency of the methylated epialleles at bistable regions enhanced intrinsic excitability. Single-nuclei profiling revealed enrichment of specific epialleles from a subset of bistable regions in activated neurons. Genes displaying both differential methylation and expression in activated neurons defined a network of proteins regulating neuronal excitability and structural plasticity. We propose a model in which bistable regions create neuron heterogeneity, and constellations of exonic epialleles dictate, via modulating gene expression and neuronal excitability, eligibility to a coding ensemble

Project description:Single cell RNA-sequencing analysis of astrocyte-to-neuron conversion in 5xFAD mouse hippocampus