Project description:In order to establish a rat embryonic stem cell transcriptome, mRNA from rESC cell line DAc8, the first male germline competent rat ESC line to be described and the first to be used to generate a knockout rat model was characterized using RNA sequencing (RNA-seq) analysis.
Project description:d-serine is naturally present throughout the human body. It is also used as add-on therapy for treatment-refractory schizophrenia. d-Serine interacts with the strychnine-insensitive glycine binding site of NMDA receptor, and this interaction could lead to potentially toxic activity (i.e., excitotoxicity) in brain tissue. The transcriptomic changes that occur in the brain after d-serine exposure have not been fully explored. Affymetrix microarray technology was used to determine differential gene expression resulting from D-Serine exposure. Keywords: Dose course
Project description:Genome-wide profiling of m6A methylation in rat cortex following traumatic brain injury via methylated RNA immunoprecipitation sequencing
Project description:Glutamate excitotoxicity plays a critical role in neurodegeneration by triggering NMDA receptorhyperactivation, leading to elevated synaptic calcium levels and subsequent neuronal cell death. Tobetter understand how glutamateaffects neurons in neurological diseases, we conducted acomprehensive analysis of molecular changes at the transcriptome and kinome levels.Our research used primary cortical cultures from rat embryos to study glutamate excitotoxicity. Non-neuronal cells,like astrocytes, typically enhance neuron tolerance to glutamate excitotoxicity. We useda neuron-rich cultured system and observed that the effects of glutamate on neurons are concentration-dependent. Intermediate doses of glutamate had significant neurotoxic effects, while high and lowdoses resulted in less cell mortality, aligning with previous findings related to calcium influx.Glutamate is known to inhibit protein synthesis in neurons and leads to a rise in cytosolic calcium, a keystep in synapticplasticity and delayed neuronal cell death. Kinome profiling indicated activation of PKAand PKG phosphorylation, essential for synaptic plasticity-related gene expression.
