Anti-Mouse CD25, APC (Clone:PC61.5) 流式抗体 (新品)
¥640.00 – ¥1,408.00
- 分子靶点:IL2RA, IL2R, CD25
- 种属:小鼠 (Mouse)
- 标记:APC
- 亚型:Rat IgG1, λ
- 克隆号:PC61.5
在售SKU, 70-AM02505-20, 70-AM02505-50, 70-AM02505-100, AM02505, 70-F2102503-25, 70-F2102503-100
描述
商品名 |
Anti-Mouse CD25, APC (Clone:PC61.5) 流式抗体 |
---|---|
靶点 | |
标记 |
APC |
仪器 |
适用633nm激光器的流式细胞仪 |
亚型 |
Rat IgG1, λ |
克隆号 |
PC61.5 |
推荐应用 |
流式检测 |
用量 |
5 μL /Test |
纯化 |
亲和层析 |
储存液 |
含 0.2% BSA 和 0.2% proclin 950 的磷酸盐缓冲液(pH7.2) |
保存条件 |
2 - 8℃避光,切勿冻存 |
结果示例
图 - 图. ICR 小鼠脾细胞染色 Anti-Mouse CD25, APC (AM02505)和 Anti-Mouse CD4,FITC (AM00401)的结果。已排除黏连细胞。
分子信息
IL2RA 分子靶点信息概述
- 分子名:IL2RA, interleukin 2 receptor subunit alpha
- 基因家族:CD molecules; Interleukin receptors; Sushi domain containing
- 别名:CD25
- 曾用名:IL2R; IDDM10
- 全称:insulin-dependent diabetes mellitus 10; interleukin 2 receptor, alpha
IL2RA 分子靶点综述
白细胞介素2受体(IL-2R)是一种在某些免疫细胞如淋巴细胞表面表达的异源三聚体蛋白,它可结合和应答细胞因子IL-2。IL-2R由三条链组成:一条α链(IL-2Rα/CD25)、一条β链(IL-2Rβ/CD122)和一条γ链(IL-2Rγ/CD132)。其中α链低亲和结合IL-2,而β和γ链组成的复合物中等亲和结合IL-2。IL-2及其受体主要通过直接作用于T细胞,从而在免疫系统、耐受性和免疫力中发挥重要作用。但是可溶性IL-2Rα(sIL-2Rα)的功能未知,因为它的低亲和力抑制了IL-2的结合。在任何情况下,体液中升高的sIL-2Rα水平与T、B细胞活化增加和免疫系统激活相关。监测血清中sIL-2Rα水平为一些病理状态如类风湿性关节炎、系统性红斑狼疮(SLE)、某些白血病和淋巴瘤提供更详细的见解。
小鼠 Mouse Il2ra 分子靶点信息
- 分子名:Il2ra, interleukin 2 receptor, alpha chain
- 别称:
- CD25
- IL-2R alpha chain
- Il2r
- interleukin 2 receptor
- Ly-43
- lymphocyte antigen 43
- 基因序列:NCBI_Gene: 16184
- 蛋白序列:
小鼠 Mouse Il2ra 靶点分子功能(预测)
Enables interleukin-2 binding activity and interleukin-2 receptor activity. Acts upstream of or within several processes, including Notch signaling pathway; activation-induced cell death of T cells; and regulation of T cell proliferation. Located in external side of plasma membrane. Is expressed in bone marrow. Used to study Sjogren's syndrome and inflammatory bowel disease. Human ortholog(s) of this gene implicated in immunodeficiency 41; lymphopenia; multiple sclerosis; type 1 diabetes mellitus; and type 1 diabetes mellitus 10. Orthologous to human IL2RA (interleukin 2 receptor subunit alpha).
操作步骤
文章目录[隐藏]
- 使用方法
- 注意事项
- FCM流式检测常见问题
- 流式实验中不可或缺的试剂—辅助试剂 
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- 流式细胞术知识分享 一 仪器篇 
- 流式细胞术之荧光知识 
- 实验时间 | 流式实验胞外/核内步骤小结 
- 分享|流式细胞术检测信号及意义 
- 干货分享|流式细胞术常见样本的制备与保存 
- 【视频】Treg检测操作演示 
- 要想流式做得好,荧光知识少不了 
- 【视频】流式细胞术原理及应用示例 
- 流式操作步骤:表面抗体染色 
- 多色流式中荧光补偿调节方法与步骤 
- 查看更多FCM流式检测相关问题
使用方法
全血样本:取 50 - 100 μl 抗凝血,加入 5 μl Anti-Mouse CD25, APC 和其他抗体,震荡混匀,于室温避光孵育 15 分钟或 2 - 8℃避光孵育 30 分钟。根据红细胞裂解液说明书进行操作,去除红细胞。300 × g 离心 5 - 10 分钟,弃上清,加入 500 μl 流式染色缓冲液重悬,上机检测。
其他样本:将 1×105 - 108 个单细胞经适当离心后,取适量流式染色缓冲液 (目录号 S1001)重悬,加入 5 μl Anti-Mouse CD25, APC 和其他抗体,使反应终体积为 100 μl。震荡混匀,于室温避光孵育 15分钟或 2 - 8℃避光孵育 30 分钟。每管加入 1 - 2 ml 流式染色缓冲液,300 × g 离心 5 - 10 分钟,弃上清,加入 500 μl 流式染色缓冲液重悬,上机检测。
实验中,可对抗体进行优化滴定以获得最佳效果。
注意事项
- 请在使用本产品前仔细阅读说明书。本产品仅用于科研,不可用于诊断。
- 为了您的安全和健康,请穿戴实验防护服、手套、口罩等必要的防护装备。
- 更多相关产品敬请关注联科生物网站或来电咨询。
FCM流式检测常见问题
查看更多FCM流式检测相关问题
引用文献
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- Fecal microbiota transplantation inhibited neuroinflammation of traumatic brain injury in mice via regulating the gut–brain axis 
- Tespa1 deficiency reduces the antitumour immune response by decreasing CD8+T cell activity in a mouse Lewis lung cancer model 
- Remodeling tumor immunosuppression with molecularly imprinted nanoparticles to enhance immunogenic cell death for cancer immunotherapy 
- Optogenetic engineered umbilical cord MSC-derived exosomes for remodeling of the immune microenvironment in diabetic wounds and the promotion of tissue repair 
- Anti-tumor and immunomodulatory effects of Grifola frondosa polysaccharide combined with vitamin C on Heps-bearing mice: Based on inducing apoptosis and autophagy 
- Tespa1 deficiency reduces the antitumour immune response by decreasing CD8+T cell activity in a mouse Lewis lung cancer model 
- Fecal microbiota transplantation inhibited neuroinflammation of traumatic brain injury in mice via regulating the gut-brain axis 
- Metabolic reprogramming by dual-targeting biomimetic nanoparticles for enhanced tumor chemo-immunotherapy 
- Remodeling tumor immunosuppression with molecularly imprinted nanoparticles to enhance immunogenic cell death for cancer immunotherapy 
Metabolic reprogramming by dual-targeting biomimetic nanoparticles for enhanced tumor chemo-immunotherapy 
Sishen Wan Treats Ulcerative Colitis in Rats by Regulating Gut Microbiota and Restoring the Treg/Th17 Balance 
Anti-tumor and immunomodulatory effects of Grifola frondosa polysaccharide combined with vitamin C on Heps-bearing mice: Based on inducing apoptosis and autophagy 
Reactive oxygen species/glutathione dual sensitive nanoparticles with encapsulation of miR155 and curcumin for synergized cancer immunotherapy 
Lactobacillus plantarum P9 ameliorates dysfunctional immune and metabolic homeostasis along the gut–liver axis in a nonalcoholic fatty liver disease with low-grade colitis mouse model 
Fecal microbiota transplantation inhibited neuroinflammation of traumatic brain injury in mice via regulating the gut–brain axis 
Tespa1 deficiency reduces the antitumour immune response by decreasing CD8+T cell activity in a mouse Lewis lung cancer model 
Remodeling tumor immunosuppression with molecularly imprinted nanoparticles to enhance immunogenic cell death for cancer immunotherapy 
Optogenetic engineered umbilical cord MSC-derived exosomes for remodeling of the immune microenvironment in diabetic wounds and the promotion of tissue repair 
Anti-tumor and immunomodulatory effects of Grifola frondosa polysaccharide combined with vitamin C on Heps-bearing mice: Based on inducing apoptosis and autophagy 
Tespa1 deficiency reduces the antitumour immune response by decreasing CD8+T cell activity in a mouse Lewis lung cancer model 
Fecal microbiota transplantation inhibited neuroinflammation of traumatic brain injury in mice via regulating the gut-brain axis 
Metabolic reprogramming by dual-targeting biomimetic nanoparticles for enhanced tumor chemo-immunotherapy 
Remodeling tumor immunosuppression with molecularly imprinted nanoparticles to enhance immunogenic cell death for cancer immunotherapy 
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