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生物源
mouse
品質等級
抗體表格
purified antibody
抗體產品種類
primary antibodies
無性繁殖
9C5, monoclonal
物種活性
human
技術
ELISA: suitable
dot blot: suitable
immunocytochemistry: suitable
immunohistochemistry: suitable
immunoprecipitation (IP): suitable
western blot: suitable
同型
IgG2bκ
NCBI登錄號
UniProt登錄號
運輸包裝
wet ice
目標翻譯後修改
unmodified
基因資訊
human ... ACP5(54)
一般說明
抗酒石酸酸性磷酸酶5型(TRAcP),也称为Acp5,在骨吸收过程中由破骨细胞分泌。TRAcP的释放受到再吸收细胞因子的刺激,并被降钙素(一种吸收抑制剂)抑制。还已知TRAcP在活性巨噬细胞和树突状细胞中大量表达,并在向T细胞呈递抗原中起重要作用。脂肪组织巨噬细胞释放的非活性TRAcP已显示可引起增生性肥胖,使脂质代谢和胰岛素敏感性保持正常。
免疫原
对应于人TRACP的全长纯化蛋白。
應用
抗TRAcP抗体,克隆9C5检测TRAcP水平,&已发布&验证可用于IH、IP、DB、ELISA、IC & WB。
研究子类别
炎症 & 自身免疫机制
炎症 & 自身免疫机制
研究类别
炎症 & 免疫学
炎症 & 免疫学
蛋白质印迹分析: 一个代表性批次已被独立实验室用于WB。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
免疫沉淀分析: 一个代表性批次已被独立实验室用于IP。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
斑点印迹分析: 一个代表性批次已被独立实验室用于DB。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
ELISA分析: 一个代表性批次已被独立实验室用于ELISA。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
免疫细胞化学分析: 一个代表性批次已被独立实验室用于IC。(Janckila,A.J.,et al.(1996).The Journal of Histochemistry and Cytochemistry.44(3):233-244.)
免疫沉淀分析: 一个代表性批次已被独立实验室用于IP。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
斑点印迹分析: 一个代表性批次已被独立实验室用于DB。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
ELISA分析: 一个代表性批次已被独立实验室用于ELISA。(Janckila,A.J.,et al.(1995).Blood.85:2839-2844.)
免疫细胞化学分析: 一个代表性批次已被独立实验室用于IC。(Janckila,A.J.,et al.(1996).The Journal of Histochemistry and Cytochemistry.44(3):233-244.)
品質
通过免疫组织化学评估毛细胞白血病组织中的大型恶性B细胞。
免疫组织化学分析:该抗体以1:500稀释度在毛细胞白血病组织的大型恶性B细胞中检测到TRAcP。
免疫组织化学分析:该抗体以1:500稀释度在毛细胞白血病组织的大型恶性B细胞中检测到TRAcP。
標靶描述
计算分子量36 kDa
外觀
形式:纯化
纯化的小鼠单克隆IgG2bκ,溶于含0.1 M Tris-甘氨酸(pH 7.4)、150 mM NaCl和0.05%叠氮化钠的缓冲液中。
蛋白G
儲存和穩定性
自接收之日起,在2-8°C下可稳定保存1年。
分析報告
对照
毛细胞白血病组织中的大恶性B细胞
毛细胞白血病组织中的大恶性B细胞
其他說明
浓度:关于批次特定浓度请参见检验报告。
免責聲明
除非我们的目录或产品随附的其他公司文件中另有说明,否则我们的产品预期仅用于研究用途,不得用于任何其他目的,包括但不限于未经授权的商业用途、体外诊断用途、离体或体内治疗用途或对人类或动物的任何类型的消费或应用。
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儲存類別代碼
12 - Non Combustible Liquids
水污染物質分類(WGK)
WGK 1
閃點(°F)
Not applicable
閃點(°C)
Not applicable
Christina Møller Andreasen et al.
Bone, 173, 116787-116787 (2023-05-08)
Although failure to establish a vascular network has been associated with many skeletal disorders, little is known about what drives development of vasculature in the intracortical bone compartments. Here, we show that intracortical bone resorption events are coordinated with development
Xenia G Borggaard et al.
Frontiers in molecular biosciences, 9, 896841-896841 (2022-07-02)
The strictly regulated bone remodeling process ensures that osteoblastic bone formation is coupled to osteoclastic bone resorption. This coupling is regulated by a panel of coupling factors, including clastokines promoting the recruitment, expansion, and differentiation of osteoprogenitor cells within the
Nicolai Ernlund Lassen et al.
Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research, 32(7), 1395-1405 (2017-02-09)
It is well known that bone remodeling starts with a resorption event and ends with bone formation. However, what happens in between and how resorption and formation are coupled remains mostly unknown. Remodeling is achieved by so-called basic multicellular units
Annika Nordstrand et al.
International journal of molecular sciences, 19(4) (2018-04-20)
Advanced prostate cancer frequently metastasizes to bone and induces a mixed osteoblastic/osteolytic bone response. Standard treatment for metastatic prostate cancer is androgen-deprivation therapy (ADT) that also affects bone biology. Treatment options for patients relapsing after ADT are limited, particularly in
Annika Nordstrand et al.
Clinical & experimental metastasis, 34(3-4), 261-271 (2017-04-28)
Prostate cancer (PCa) patients with bone metastases are primarily treated with androgen deprivation therapy (ADT). Less pronounced ADT effects are seen in metastases than in primary tumors. To test if acute effects of ADT was enhanced by concurrent inhibition of
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