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货号: bs-20461R-AF594 基本售价: 2980.0 元 规格: 100ul
产品信息
- 产品编号
- bs-20461R-AF594
- 英文名称
- Anti-SCN9A/NAV1.7/AF594
- 中文名称
- AF594标记的电压开启的钠离子通道SCN9A抗体
- 别 名
- SCN9A; Sodium channel protein type 9 subunit alpha; ETHA; hNE Na; hNENa; NE NA; NENA; NE-NA; Neuroendocrine sodium channel; Peripheral sodium channel 1; PN1; SCN9A; Sodium channel protein type 9 subunit alpha; Sodium channel protein type IX subunit alpha; Sodium channel voltage gated type IX alpha; Sodium channel voltage gated type IX alpha polypeptide; Sodium channel voltage gated type IX alpha subunit; Voltage gated sodium channel alpha subunit Nav1.7; Voltage gated sodium channel subunit alpha Nav1; FEB3B; SCN9A_HUMAN.
- 规格价格
- 100ul/2980元购买 大包装/询价
- 说 明 书
- 100ul
- 研究领域
- 通道蛋白
- 抗体来源
- Rabbit
- 克隆类型
- Polyclonal
- 交叉反应
- Human, Mouse, Rat, Dog, Pig, Cow, Horse, Sheep,
- 产品应用
- ICC=1:50-200 IF=1:50-200
not yet tested in other applications.
optimal dilutions/concentrations should be determined by the end user.
- 分 子 量
- 219kDa
- 性 状
- Lyophilized or Liquid
- 浓 度
- 2mg/1ml
- 免 疫 原
- KLH conjugated synthetic peptide derived from human SCN9A/NAV1.7
- 亚 型
- IgG
- 纯化方法
- affinity purified by Protein A
- 储 存 液
- 0.01M TBS(pH7.4) with 1% BSA, 0.03% Proclin300 and 50% Glycerol.
- 保存条件
- Store at -20 °C for one year. Avoid repeated freeze/thaw cycles. The lyophilized antibody is stable at room temperature for at least one month and for greater than a year when kept at -20°C. When reconstituted in sterile pH 7.4 0.01M PBS or diluent of antibody the antibody is stable for at least two weeks at 2-4 °C.
- 产品介绍
- background:
This gene encodes a voltage-gated sodium channel which plays a significant role in nociception signaling. Mutations in this gene have been associated with primary erythermalgia, channelopathy-associated insensitivity to pain, and paroxysmal extreme pain disorder. [provided by RefSeq, Aug 2009]
Function:
Mediates the voltage-dependent sodium ion permeability of excitable membranes. Assuming opened or closed conformations in response to the voltage difference across the membrane, the protein forms a sodium-selective channel through which Na(+) ions may pass in accordance with their electrochemical gradient. It is a tetrodotoxin-sensitive Na(+) channel isoform. Plays a role in pain mechanisms, especially in the development of inflammatory pain.
Subunit:
The sodium channel consists of a large polypeptide and 2-3 smaller ones. This sequence represents a large polypeptide. Interacts with NEDD4 and NEDD4L.
Subcellular Location:
Membrane; Multi-pass membrane protein. Note=In neurite terminals.
Tissue Specificity:
Expressed strongly in dorsal root ganglion, with only minor levels elsewhere in the body, smooth muscle cells, MTC cell line and C-cell carcinoma. Isoform 1 is expressed preferentially in the central and peripheral nervous system. Isoform 2 is expressed preferentially in the dorsal root ganglion.
Post-translational modifications:
Ubiquitinated by NEDD4L; which may promote its endocytosis. Does not seem to be ubiquitinated by NEDD4.
DISEASE:
Defects in SCN9A are the cause of primary erythermalgia (PERYTHM) [MIM:133020]. It is an autosomal dominant disease characterized by recurrent episodes of severe pain associated with redness and warmth in the feet or hands.
Defects in SCN9A are the cause of congenital indifference to pain autosomal recessive (CIPAR) [MIM:243000]; also known as channelopathy-associated insensitivity to pain. A disorder characterized by congenital inability to perceive any form of pain, in any part of the body. All other sensory modalities are preserved and the peripheral and central nervous systems are apparently intact. Patients perceive the sensations of touch, warm and cold temperature, proprioception, tickle and pressure, but not painful stimuli. There is no evidence of a motor or sensory neuropathy, either axonal or demyelinating.
Defects in SCN9A are a cause of paroxysmal extreme pain disorder (PEPD) [MIM:167400]; previously known as familial rectal pain (FRP). PEPD is an autosomal dominant paroxysmal disorder of pain and autonomic dysfunction. The distinctive features are paroxysmal episodes of burning pain in the rectal, ocular, and mandibular areas accompanied by autonomic manifestations such as skin flushing.
Defects in SCN9A are a cause of generalized epilepsy with febrile seizures plus type 7 (GEFS+7) [MIM:613863]. GEFS+7 is a rare autosomal dominant, familial condition with incomplete penetrance and large intrafamilial variability. Patients display febrile seizures persisting sometimes beyond the age of 6 years and/or a variety of afebrile seizure types. This disease combines febrile seizures, generalized seizures often precipitated by fever at age 6 years or more, and partial seizures, with a variable degree of severity.
Defects in SCN9A are the cause of familial febrile convulsions type 3B (FEB3B) [MIM:613863]. FEB3B consists of seizures associated with febrile episodes in childhood without any evidence of intracranial infection or defined pathologic or traumatic cause. It is a common condition, affecting 2-5% of children aged 3 months to 5 years. The majority are simple febrile seizures (generally defined as generalized onset, single seizures with a duration of less than 30 minutes). Complex febrile seizures are characterized by focal onset, duration greater than 30 minutes, and/or more than one seizure in a 24 hour period. The likelihood of developing epilepsy following simple febrile seizures is low. Complex febrile seizures are associated with a moderately increased incidence of epilepsy.
Similarity:
Belongs to the sodium channel (TC 1.A.1.10) family.
Database links:Entrez Gene: 6335 Human
Entrez Gene: 20274 Mouse
Entrez Gene: 78956 Rat
Omim: 603415 Human
SwissProt: Q15858 Human
SwissProt: Q62205 Mouse
SwissProt: O08562 Rat
Unigene: 439145 Human
Unigene: 440889 Mouse
Unigene: 88082 Rat
Important Note:
This product as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications.
SCN9A是电压门控钠离子通道α-亚单位第Ⅸ型蛋白,是一种特殊的与疼痛有关的蛋白质,SCN9在机体中对钠离子进入细胞以及神经元之间的交流起导向作用。这种蛋白集中在痛觉神经的末梢,当人受到疼痛刺激时,这一蛋白质会释放钠离子流,放大和刺激神经细胞,将电子信号发送到大脑,从而使人们感觉到疼痛。