Project description:We identified 271 transcripts as differentially regulated in the dorsal raphe and/or the amygdala of high-responder and low-responder rats
Project description:We report 33 microRNAs are differentially expressed in the dorsal raphe and/or amygdala of rats selectively bred for high and low locomotor response to novelty (high responder and low responder rats)
Project description:Effects of exercise on gene expression profiles of long non-coding RNA and mRNA in spinal dorsal horn of rats with neuropathic pain
Project description:Male Sprague-Dawley rats were used to establish exhausted-exercise model by motorized rodent treadmill. Yu-Ping-Feng-San at doses of 2.18 g/kg was administrated by gavage before exercise training for 10 consecutive days. Quantitative proteomics was performed for assessing the related mechanism of Yu-Ping-Feng-San.
Project description:Single-neuron transcriptome profiles of Dorsal Raphe neurons marked by a history of expression of Drd2::Cre and Pet1::Flpe (GFP+), as well as Dorsal Raphe neurons marked by a history of Pet1::Flpe expression only (mCherry+).
Project description:Summary: Spinal cord injury (SCI) is a damage to the spinal cord induced by trauma or disease resulting in a loss of mobility or feeling. SCI is characterized by a primary mechanical injury followed by a secondary injury in which several molecular events are altered in the spinal cord often resulting in loss of neuronal function. Analysis of the areas directly (spinal cord) and indirectly (raphe and sensorimotor cortex) affected by injury will help understanding mechanisms of SCI. Hypothesis: Areas of the brain primarily affected by spinal cord injury are the Raphe and the Sensorimotor cortex thus gene expression profiling these two areas might contribute understanding the mechanisms of spinal cord injury. Specific Aim: The project aims at finding significantly altered genes in the Raphe and Sensorimotor cortex following an induced moderate spinal cord injury in T9.