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| SKU | Size | Availability |
Price | Qty |
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O407773-1ml
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1ml |
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
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$191.90
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Sodium Channel Inhibitors
| Synonyms | GP47680 | 10,11-Dihydro-10-oxo-5H-dibenz[b,f]azepine-5-carboxamide |
|---|---|
| Specifications & Purity | Moligand™, 10mM in DMSO |
| Biochemical and Physiological Mechanisms | Oxcarbazepine (GP47680) inhibits the binding of [3H]BTX to sodium channels with IC50 of 160 μM and also inhibits the influx of 22Na+ into rat brain synaptosomes with IC50 about 100 μM. |
| Storage Temp | Store at -80°C |
| Shipped In |
Ice chest + Ice pads This product requires cold chain shipping. Ground and other economy services are not available. |
| Grade | Moligand™ |
| Action Type | BLOCKER |
| Mechanism of action | Sodium channel alpha subunit blocker |
| Product Description |
Information Oxcarbazepine Oxcarbazepine (GP47680) inhibits the binding of [3H]BTX to sodium channels with IC50 of 160 μM and also inhibits the influx of 22 Na + into rat brain synaptosomes with IC50 about 100 μM. In vivo
cell lines: Concentrations: Incubation Time: Powder Purity:≥95% |
| ALogP | 2.131 |
|---|---|
| hba_count | 2 |
| HBD Count | 1 |
| Smiles | NC(=O)N1C2=C(CC(=O)C3=C1C=CC=C3)C=CC=C2 |
|---|---|
| Molecular Weight | 252.27 |
| Reaxy-Rn | 1474055 |
| Reaxys-RN_link_address | https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=1474055&ln= |
| DMSO(mg / mL) Max Solubility | 7 |
|---|---|
| DMSO(mM) Max Solubility | 27.75 |
| Water(mg / mL) Max Solubility | <1 |
| 1. Yuanyuan Fu, Zhentao Li, Changjun Hu, Qiaoyan Li, Zilin Chen. (2023) In-situ immobilization of covalent organic frameworks as stationary phase for capillary electrochromatography. JOURNAL OF CHROMATOGRAPHY A, 1705 (464205). |
| 2. Chunyan Hu, Jianyi Li, Juncheng Ke, Jianjun Liang, Qiuliang Liu, Qiliang Wang, Wentao Huang. (2023) The preparation and removal performance of carbamazepine/oxcarbazepine double template magnetic molecularly imprinted polymers. SEPARATION AND PURIFICATION TECHNOLOGY, 306 (122556). |
| 3. Cong Pan, Libin Fu, Fenna Lide, Yaobin Ding, Chengjun Wang, Jia Huang, Shaobin Wang. (2022) Insights into bromate reduction by Fe(II): Multiple radicals generation and carbamazepine oxidation. CHEMICAL ENGINEERING JOURNAL, 431 (133957). |
| 4. Tongcai Liu, Kai Yin, Chengbin Liu, Jinming Luo, John Crittenden, Weiqiu Zhang, Shenglian Luo, Qunying He, Yongxiu Deng, Hui Liu, Danyu Zhang. (2018) The role of reactive oxygen species and carbonate radical in oxcarbazepine degradation via UV, UV/H2O2: Kinetics, mechanisms and toxicity evaluation. WATER RESEARCH, 147 (204). |
| 5. Bu Lingjun, Zhou Shiqing, Shi Zhou, Deng Lin, Li Guangchao, Yi Qihang, Gao Naiyun. (2016) Degradation of oxcarbazepine by UV-activated persulfate oxidation: kinetics, mechanisms, and pathways. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 23 (3): (2848-2855). |
| 6. Shuchao Wu, Wei Xu, Qamar Subhani, Bingcheng Yang, Deying Chen, Yan Zhu, Lanjuan Li. (2012) Ion chromatography combined with online electrochemical derivatization and fluorescence detection for the determination of carbamazepine in human plasma. TALANTA, 101 (541). |