Project description:The goal of this study was to determine the distribution of H3K27me3 in rat peripheral nerve, which is formed by PRC2, polycomb repressive complex 2.
Project description:ChIP-seq of H3K4me3 in rat peripheral nerve was used to identify transcription start sites associated with Schwann cell-expressed genes. The analysis was performed in injured and control nerve to identify injury-responsive changes in Schwann cells. H3K4me3 ChIP samples were prepared from rat sciatic nerve at 1 day post-transection using both the distal stump of the injured nerve and the contralateral (sham) nerve.
Project description:ChIP-seq of H3K4me3 in rat peripheral nerve was used to identify transcription start sites associated with Schwann cell-expressed genes. The analysis was performed in injured and control nerve to identify injury-responsive changes in Schwann cells.
Project description:ChIP-seq of H3K27me3 in rat peripheral nerve was used to identify sites of polycomb repression associated with genes in Schwann cells, which constitute the majority of cells in peripheral nerve.
Project description:ChIP-seq of H3K27me3 in rat peripheral nerve was used to identify sites of polycomb repression associated with genes in Schwann cells, which constitute the majority of cells in peripheral nerve. H3K27me3 ChIP samples were prepared from rat sciatic nerve and then sequenced. Inputs for these ChIP samples have previously been submitted as samples GSM1541282 and GSM1541283 in Series GSE63103
Project description:We provide ChIP-Seq analysis of Egr2 and Sox10 transcription factor binding in Schwann cells of rat peripheral nerve ChIP-Seq analysis of Egr2 and Sox10 binding in P15 rat sciatic nerve. Wiggle files of negative log of posterior probability determined by Mosaics.
Project description:Purpose: Nerve injury-induced hyperactivity of primary sensory neurons in the dorsal root ganglion (DRG) contributes critically to chronic pain development, but its underlying mechanisms remain incompletely understood. Chronic neuropathic pain has a clear epigenetic component, however, most studies so far have focused on histone modifications. We determined changes of DNA methylation in the rat DRG, spinal cord, and prefrontal cortex after spinal nerve ligation (SNL).
Project description:Purpose: Nerve injury-induced hyperactivity of primary sensory neurons in the dorsal root ganglion (DRG) contributes critically to chronic pain development, but its underlying mechanisms remain incompletely understood. Chronic neuropathic pain has a clear epigenetic component, however, most studies so far have focused on histone modifications. We determined changes of DNA methylation in the rat DRG, spinal cord, and prefrontal cortex after spinal nerve ligation (SNL).