| 规格编号 | 规格 | 库存 | 价格 |
|---|---|---|---|
| SEKH-0330-96T | 96T | 现货 | 2600.00 |
| SEKH-0330-48T | 48T | 现货 | 1600.00 |
| 中文名称 | 人转铁蛋白受体(TFR)ELISA检测试剂盒 |
| 英文名称 | Human TFR ELISA Kit |
| 别名 | CD71; TFR1; P90; TFRC; T9; Trfr; TRFR |
| 储存条件 | 保存在2-8℃,6个月。 |
| 规格 | 96T ; 48T |
| 运输条件 | 冷藏运输 |
| 检测目标 | TFR |
| 样品类型 | 血清/血浆/细胞培养上清 |
| 反应性 | Human |
| 应用 | ELISA |
| 反应类型 | Sandwich-ELISA |
| 定量/定性 | 定量检测 |
| 检测范围 | 39.06-2500 pg/ml |
| 灵敏度 | 15 pg/ml |
| 特异性 | 不与人TfR2,小鼠TfR等反应。 |
| 精密度 | 板内,板间变异系数均<10% |
| 回收率 | 80%-120% |
| 反应时间 | 3.5h |
| 试剂盒类型 | 传统ELISA试剂盒 |
| 检测原理 | Solarbio ELISA试剂盒采用基于双抗体夹心法的酶联免疫吸附检测技术。将抗人Transferrin Receptor/TFR单克隆抗体包被在酶标板上;分别加入梯度稀释的标准品和预稀释的样本,标准品和样本中的人Transferrin Receptor/TFR会与酶标板上的包被抗体充分结合;洗板后加入生物素化抗人Transferrin Receptor/TFR抗体,该抗体会与板子上包被抗体捕获的标准品和样本中的人Transferrin Receptor/TFR发生特异性结合;洗板后加入辣根过氧化物酶(HRP)标记的链霉亲和素,生物素与链霉亲和素会发生高强度的非共价结合;洗板后加入显色剂底物TMB,若反应孔中样品存在不同浓度的人Transferrin Receptor/TFR,则HRP会使无色TMB变成不同深浅(正相关)的蓝色物质,加入终止液后反应孔会变成黄色;最后,在λmax=450 nm(OD=450 nm)处测定反应孔样品吸光度(OD),样本中的人Transferrin Receptor/TFR浓度与OD成正比,通过绘制标准曲线和四参数拟合软件便可计算出样本中人Transferrin Receptor/TFR的浓度。 |
| 背景说明 | Transferrin receptor (TfR) is a carrier protein for transferrin. It is needed for the import of iron into the cell and is regulated in response to intracellular iron concentration. It imports iron by internalizing the transferrin-iron complex through receptor-mediated endocytosis. The existence of a receptor for transferrin iron uptake had been recognized over half a century back. Earlier two transferrin receptors in humans, transferrin receptor 1 and transferrin receptor 2 had been characterized and until recently cellular iron uptake was believed to occur chiefly via these two well documented transferrin receptors. Both these receptors are transmembrane glycoproteins. TfR1 is a high affinity ubiquitously expressed receptor while expression of TfR2 is restricted to certain cell types and is unaffected by intracellular iron concentrations. TfR2 binds to transferrin with a 25-30 fold lower affinity than TfR1. Although TfR1 mediated iron uptake is the major pathway for iron acquisition by most cells and especially developing erythrocytes, several studies have indicated that the uptake mechanism varies depending upon the cell type. It is also reported that Tf uptake exists independent of these TfRs although the mechanisms are not well characterized. The multifunctional glycolytic enzyme glyceraldehyde 3-phosphate dehydrogenase (GAPDH,EC 1.2.1.12) has been shown to utilize post translational modifications to exhibit higher order moonlighting behavior wherein it switches its function as a holo or apo transferrin receptor leading to either iron delivery or iron export respectively. |
| 单位 | 盒 |
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