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尿激酶

7篇引用文献
  • EnzymoPure™
    •
  • ≥85%
  • Potency ≥50000IU/mg,specific activeiy 120000IU/mg
功能和特点
有货

库存信息

关闭

库存信息

关闭

库存信息

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货号 (SKU) 包装规格 是否现货 价格 数量
U108373-5mg
 5mg 现货 Stock Image
U108373-10mg
 10mg 现货 Stock Image
U108373-50mg
 50mg 现货 Stock Image
大包装询价 添加到收藏夹 比较  DATASHEET
查看相关系列
Metabolic Enzyme/Protease (4884) Ser/Thr Protease (102) 蛋白分解酶 (1)
main product photo

基本描述

产品名称 尿激酶
英文别名 079X63S3DU | CAMBENDAZOLE [MART.] | Cambendazole 100 microg/mL in Acetonitrile | MFCD00864552 | QZWHWHNCPFEXLL-UHFFFAOYSA-N | Camdan (TN) | NOE [French] | Equiben | J-690273 | SMR003475014 | DTXSID0046852 | isopropyl N-(2-thiazol-4-yl-1H-benzimidazol-5-yl
规格或纯度 EnzymoPure™, ≥85%, Potency ≥50000IU/mg,specific activeiy 120000IU/mg
生化机理 尿胰蛋白酶抑制剂通过 MEK/ERK/c-Jun 依赖性信号通路抑制尿激酶的表达和侵袭性
产品介绍

为人尿或肾细胞的蛋白水解酶。天然底物是纤溶酶原。对湿敏感。溶于水。干粉在4℃较稳定,水溶液在4℃的稳定期为3天。主要活性成分是尿激酶的低分子量形式,由 2,000 道尔顿的 A 链和 30,400 道尔顿的 B 链通过巯基键连接而成。

产品应用:
人肾细胞产生的尿激酶已被用作消化混合物的成分,用于三维纤维蛋白培养。也用于纤溶酶原激活试验

生理学机理:

尿激酶可促进肾肿瘤细胞的增殖。尿激酶是一种蛋白酶,能裂解纤溶酶原形成纤溶酶。与细胞表面受体 (uPAR) 结合,在组织重塑过程中调节细胞粘附和迁移,并激活细胞内信号通路。尿激酶由三个结构域组成:与表皮生长因子同源的氨基末端结构域通过中央圈形区结构域连接到羧基端的蛋白酶结构域。

Physical form Lyophilized from 1 mL of 50 mM Tris-HCl, pH 7.4 with 100 mM NaCl, 0.1% PEG 6000, and 200 mM mannitol Physical properties High molecular weight form migrating at 54 kDa by SDS-PAGE under non-reducing conditions
Urokinase is a protease that cleaves plasminogen to form plasmin. It binds to cell surface receptors (uPAR) from which it regulates cell adhesion and migration during tissue remodeling and which also activate intracellular signaling pathways. Urokinase is composed of three domains: the amino terminal domain which is homologous to epidermal growth factor is attached through a central kringle domain to the protease domain in the carboxyl terminus.

AI解读

关联靶点(人)

TDP1 Tchem Tyrosyl-DNA phosphodiesterase 1 (345557 活性数据)
活性类型 Relation Activity value Units Action Type Journal PubMed Id doi Assay Aladdin ID
GMNN Tbio Geminin (128009 活性数据)
活性类型 Relation Activity value Units Action Type Journal PubMed Id doi Assay Aladdin ID

关联靶点(其它种属)

Mus musculus (284745 活性数据)
活性类型 Relation Activity value Units Action Type Journal PubMed Id doi Assay Aladdin ID
Luciferin 4-monooxygenase (66902 活性数据)
活性类型 Relation Activity value Units Action Type Journal PubMed Id doi Assay Aladdin ID
Rorc Nuclear receptor ROR-gamma (89407 活性数据)
活性类型 Relation Activity value Units Action Type Journal PubMed Id doi Assay Aladdin ID

作用机制

作用机制 Action Type target ID Target Name Target Type Target Organism Binding Site Name 参考文献

产品规格参数

浓度 Potency ≥50000IU/mg,specific activeiy 120000IU/mg
储存温度 -20°C储存,充氩
运输条件 超低温冰袋运输
CAS编号和信息 9039-53-6
分子类型 小分子

安全和危险性(GHS)

象形图 GHS08
信号词 Warning
危险声明

H361: 怀疑破坏生育力或未出生的孩子
预防措施声明

P280: 戴防护手套/穿防护服/戴防护眼罩/戴防护面具。

P405: 密闭存放

P501: 将内容物/容器处理到。。。

P203: 使用前,获取、阅读并遵守所有安全说明。

P318: 如果暴露或担心,请就医。
WGK Germany 3
RTECS OB8900000

质检证书(CoA,COO,BSE/TSE 和分析图谱)

C of A & Other Certificates(BSE/TSE, COO):
输入批号以搜索分析图谱:

通过匹配包装上的批号来查找并下载产品的 COA,每批产品都进行了严格的验证,您可放心使用!

找到13个结果

批号(Lot Number) 证书类型 日期 货号
D2522324 分析证书 25-03-26 U108373
D2522335 分析证书 25-03-26 U108373
D2522348 分析证书 25-03-26 U108373
D2522429 分析证书 25-03-26 U108373
C23081299 分析证书 24-12-20 U108373
C23081293 分析证书 24-12-20 U108373
C23081291 分析证书 24-12-20 U108373
G2404241 分析证书 24-06-11 U108373
G2404252 分析证书 24-06-11 U108373
C2428054 分析证书 24-04-01 U108373
C2226230 分析证书 23-12-22 U108373
C2226247 分析证书 23-12-22 U108373
K2016052 分析证书 22-09-14 U108373

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此产品的引用文献

如何在您的发表作品中引用阿拉丁的产品和网站?
1. Zhechang Chen, Caijie Yuan, Yaxin Ye, Bitao Lu, Enling Hu, Fei Lu, Kun Yu, Ruiqi Xie, Guangqian Lan.  (2024)  Dual-targeting fucoidan-based microvesicle for arterial thrombolysis and re-occlusion inhibition.  CARBOHYDRATE POLYMERS,  328  (121703).  [PMID:38220339] [10.1016/j.carbpol.2023.121703]
2. Song Jianwen, Kang Xiaoying, Wang Lu, Ding Dan, Kong Deling, Li Wen, Qi Ji.  (2023)  Near-infrared-II photoacoustic imaging and photo-triggered synergistic treatment of thrombosis via fibrin-specific homopolymer nanoparticles.  Nature Communications,  14  (1): (1-19).  [PMID:37898604] [10.1038/s41467-023-42691-8]
3. Weiwei Zhang, Yuguo Deng, Jinhao Zhao, Tao Zhang, Xiang Zhang, Wenping Song, Lin Wang, Tianlong Li.  (2023)  Amoeba-Inspired Magnetic Venom Microrobots.  Small,  19  (23): (2207360).  [PMID:36869412] [10.1002/smll.202207360]
4. Mei Jian feng, Cai Shao fen, Yi Yu, Wang Xu dong, Ying Guo qing.  (2023)  Study of the fibrinolytic activity of serrapeptase and its in vitro thrombolytic effects.  Brazilian Journal of Pharmaceutical Sciences,  58  (e201004).  [10.1590/s2175-97902022e201004]
5. Songzhi Xie, Shang Li, Wenxiong Cao, Chuanfei Mo, Zhanlin Zhang, Kun Huang, Xiaohong Li.  (2022)  Bacteria-Templated and Dual Enzyme-Powered Microcapsule Motors To Promote Thrombus Penetration and Thrombolytic Efficacy.  ACS Applied Materials & Interfaces,  14  (33): (37553–37565).  [PMID:35948498] [10.1021/acsami.2c11213]
6. Dongya Wang, Qianqian Zhao, Jingcan Qin, Yuanyuan Guo, Chuan Zhang, Yuehua Li.  (2022)  Urokinase loaded black phosphorus nanosheets for sequential thrombolysis and reactive oxygen species scavenging in ischemic stroke treatment.  Biomaterials Science,  10  (16): (4656-4666).  [PMID:35801526] [10.1039/D2BM00746K]
7. Songzhi Xie, Chuanfei Mo, Wenxiong Cao, Shuang Xie, Shang Li, Zhanlin Zhang, Xiaohong Li.  (2022)  Bacteria-propelled microtubular motors for efficient penetration and targeting delivery of thrombolytic agents.  Acta Biomaterialia,  142  (49).  [PMID:35158079] [10.1016/j.actbio.2022.02.008]

参考文献

1. Zhechang Chen, Caijie Yuan, Yaxin Ye, Bitao Lu, Enling Hu, Fei Lu, Kun Yu, Ruiqi Xie, Guangqian Lan.  (2024)  Dual-targeting fucoidan-based microvesicle for arterial thrombolysis and re-occlusion inhibition.  CARBOHYDRATE POLYMERS,  328  (121703).  [PMID:38220339] [10.1016/j.carbpol.2023.121703]
2. Song Jianwen, Kang Xiaoying, Wang Lu, Ding Dan, Kong Deling, Li Wen, Qi Ji.  (2023)  Near-infrared-II photoacoustic imaging and photo-triggered synergistic treatment of thrombosis via fibrin-specific homopolymer nanoparticles.  Nature Communications,  14  (1): (1-19).  [PMID:37898604] [10.1038/s41467-023-42691-8]
3. Weiwei Zhang, Yuguo Deng, Jinhao Zhao, Tao Zhang, Xiang Zhang, Wenping Song, Lin Wang, Tianlong Li.  (2023)  Amoeba-Inspired Magnetic Venom Microrobots.  Small,  19  (23): (2207360).  [PMID:36869412] [10.1002/smll.202207360]
4. Mei Jian feng, Cai Shao fen, Yi Yu, Wang Xu dong, Ying Guo qing.  (2023)  Study of the fibrinolytic activity of serrapeptase and its in vitro thrombolytic effects.  Brazilian Journal of Pharmaceutical Sciences,  58  (e201004).  [10.1590/s2175-97902022e201004]
5. Songzhi Xie, Shang Li, Wenxiong Cao, Chuanfei Mo, Zhanlin Zhang, Kun Huang, Xiaohong Li.  (2022)  Bacteria-Templated and Dual Enzyme-Powered Microcapsule Motors To Promote Thrombus Penetration and Thrombolytic Efficacy.  ACS Applied Materials & Interfaces,  14  (33): (37553–37565).  [PMID:35948498] [10.1021/acsami.2c11213]
6. Dongya Wang, Qianqian Zhao, Jingcan Qin, Yuanyuan Guo, Chuan Zhang, Yuehua Li.  (2022)  Urokinase loaded black phosphorus nanosheets for sequential thrombolysis and reactive oxygen species scavenging in ischemic stroke treatment.  Biomaterials Science,  10  (16): (4656-4666).  [PMID:35801526] [10.1039/D2BM00746K]
7. Songzhi Xie, Chuanfei Mo, Wenxiong Cao, Shuang Xie, Shang Li, Zhanlin Zhang, Xiaohong Li.  (2022)  Bacteria-propelled microtubular motors for efficient penetration and targeting delivery of thrombolytic agents.  Acta Biomaterialia,  142  (49).  [PMID:35158079] [10.1016/j.actbio.2022.02.008]

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