Project description:10x single-cell RNA-sequencing to profile mouse brain cells at postnatal day 10

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the acute (4h post-treatment) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis (postnatal day 7). We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 7 that occur due to ethanol treatment at postnatal day 7 (synaptogenesis).

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the acute (4h post-treatment) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis (postnatal day 7). We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 7 that occur due to ethanol treatment at postnatal day 7 (synaptogenesis). To generate samples, C57BL/6J pups were injected with ethanol (experimental) or saline (control) at postnatal day 7 (2 x 2.5 g/kg at 0h and 2h). Pups were sacrificed 4 hours following the initial injection. Total RNA was extracted from whole brain tissue and RNA from three male mice from three different litters were pooled as one biological replicate. Each male ethanol-treated mouse represented in a sample was matched by a control littermate present in a control sample. This study consists of two experimental (ethanol-treated) biological replicates and four control (saline vehicle-treated) replicates (total mice used was n=18).

Project description:The gene expression profiles of control vs AGTR2 knockout mouse whole brains at developmental stage E15 and postnatal day 1 were examined. Keywords: genetic modification, brain development, AGTR2

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the long-term (postnatal day 60 young adult) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis. We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 60 that occur due to ethanol treatment at postnatal days 4 and 7 (synaptogenesis). To generate samples, C57BL/6J pups were injected with ethanol (experimental) or saline (control) at postnatal days 4 and 7. Pups were weaned at postnatal day 25 and sacrificed at postnatal day 60. Total RNA was extracted from whole brain tissue and RNA from three male mice from three different litters were pooled as one biological replicate. Each male ethanol-treated mouse represented in a sample was matched by a control littermate present in a control sample. This study consists of two biological replicates for each experimental group (total mice used was n=12).

Project description:Arid1b is a chromatin remodeler implicated in neurodevelopmental disorders. Arid1b mutant mice with haploinsufficiency (Arid1b HT) displayed persistent excitatory synaptic dysfunction from juvenile to adult stage, decreased synaptic density and transmission. Moreover, they showed autistic-like behaviors in both of early and adult stages, decreased sociability in pup USV calling and adult social interaction, and adult repetitive grooming. To investigate early transcriptomic changes in Arid1b mutant mice, RNAseq analysis of prefrontal cortex from wild-type and Arid1b mutant mice at postnatal day 10 was done. Transcriptomic changes support these electrophysiological and behavioral deficits. Arid1b HT mice at postnatal day 10 showed alterations in genes implicated in synaptic functions and ASD.

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the long-term (postnatal day 60 young adult) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis. We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 60 that occur due to ethanol treatment at postnatal days 4 and 7 (synaptogenesis).

Project description:Scn1b null mice are a model of a severe developmental and epileptic encephalopathy called Dravet Syndrome (DS). The goal of this study was to identify changes in gene expression between Scn1b wild-type and Scn1b null mice before seizure onset (postnatal day 10)

Project description:Effect of Maternal Separation (MatSep) on renal vasculature isolated from male neonates (Postnatal day 10) and adult (Postnatal day 180)

Project description:RNA-seq of Wild-type and Math5-/- mouse dLGN (dorsolateral geniculate nucleus) at postnatal day 3, postnatal day 7, postnatal day 14 and postnatal day 23