Pain Research Gene Expression Analysis

Potent and Proven Transfection KitsPain Researchers have successfully modulated 25+ genes involved in pain pathways using our Transfection Kits. Highlights include: DOR,The β3 subunit of  Na+,K+-ATPase, NTS1, NAV1.8, Kv 1.1, Kv 9.1, TROY, NOV, β-arrestin, TRPV1, CAV1.2, TLR4 and ASIC and more!  To learn more, check out our Transfection Kit Publications and Blog.Figures: Intrathecal Kv9.1 siRNA treatment induces pain behaviors in naive rats. A, qRT-PCR quantification of Kv9.1 mRNA in rat PASMC cultures transfected with one of three Kv9.1 siRNA sequences or control siRNA. B, qRT-PCR showing Kv9.1 in vivo knock-down in L5 DRG, 4 d after intrathecal delivery of siRNA #1 compared with vehicle or matched scrambled control.  C, IHC for Kv9.1 in scrambled- and siRNA-treated DRG to determine protein knockdown. Graphs illustrate quantification of number of positive myelinated neurons and mean Kv9.1 signal intensity. D, Kv9.1 siRNA infusion inflicts a reduction in mechanical pain withdrawal thresholds. E, There was no change in heat pain thresholds after siRNA treatment. Vertical arrows on x-axis denote siRNA injections. doi: 10.1523/​JNEUROSCI.3561-12.2012.We can now add the GPNMB gene to the list of those anaylyzed: Lili Hou, Yanfeng Zhang, Yong Yang, Kai Xiang, Qindong Tan, Qulian Guo. Intrathecal siRNA Against GPNMB Attenuates Nociception in a Rat Model of Neuropathic Pain. Journal of Molecular Neuroscience. July 2014...Ten micrograms of siRNA1- GPNMB dissolved i...
Source: Neuromics - Category: Neuroscience Tags: chronic pain gene expression analysis Gene Silencing i-Fect inflammatory nociception Nociceptin Pain Research siRNA delivery in-vivo Source Type: news