MIF Protein (AA 2-115, N-Term)
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- 抗原 See all MIF 蛋白
- MIF (Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF))
- 蛋白类型
- Recombinant
- 生物活性
- Active
- 产品特性
- AA 2-115, N-Term
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宿主
- 小鼠
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资源
- 大肠杆菌(E. Coli)
- 应用范围
- Flow Cytometry (FACS)
- 纯度
- >95 % , as determined by Coomassie stained SDS-PAGE.
- 过滤
- 0.22 μm filtered
- 内毒素水平
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Less than 0.1 EU per μg of protein as determine by the LAL method.
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Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (Active) protein
MIF 宿主: 人 宿主: 大肠杆菌(E. Coli) Recombinant >95 % as determined by SDS-PAGE Func Active
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 2-115) protein (His tag)MIF 宿主: 人 宿主: HEK-293 Cells Recombinant > 95 % as determined by Tris-Bis PAGE
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (Active) proteinMIF 宿主: 小鼠 宿主: 大肠杆菌(E. Coli) Recombinant >95 % as determined by SDS-PAGE Func Active
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 1-115) protein (His tag)MIF 宿主: 小鼠 宿主: 大肠杆菌(E. Coli) Recombinant Greater than 95 % as determined by SDS-PAGE WB, ELISA
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 1-115) protein (His tag)MIF 宿主: 人 宿主: 大肠杆菌(E. Coli) Recombinant Greater than 95 % as determined by SDS-PAGE WB, ELISA
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 2-115) protein (His-IF2DI Tag)MIF 宿主: 人 宿主: 大肠杆菌(E. Coli) Recombinant Greater than 95 % by SDS-PAGE gel analyses WB, ELISA
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 1-115) protein (GST tag)MIF 宿主: 人 宿主: 小麦胚 Recombinant WB, ELISA, AP, AA
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) protein (His tag)MIF 宿主: 小鼠 宿主: 大肠杆菌(E. Coli) Recombinant > 95 % as determined by SDS-PAGE
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 2-115) protein (His tag)Crystallography grade MIF 宿主: 人 宿主: 大肠杆菌(E. Coli) Recombinant >95 % as determined by SDS PAGE, Size Exclusion Chromatography and Western Blot. SDS, WB, ELISA, Crys
Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF) (AA 2-115), (full length) protein (His tag)MIF 宿主: 人 宿主: 大肠杆菌(E. Coli) Recombinant 90 % ELISA
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- 应用备注
- Optimal working dilution should be determined by the investigator.
- 说明
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Biological activity: Mouse MIF inhibits the migration of THP-1 cells in the presence of 25 ng/ml of human MCP-1 in a trans-well experimental system. The IC50 is 0.4 - 1.5 μg/mL.
- 限制
- 仅限研究用
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- 状态
- Liquid
- 溶解方式
- For maximum results, quick spin vial prior to opening. Stock solutions should be prepared at no less than 10 μg/mL in sterile buffer (PBS, HPBS, DPBS, and EBSS) containing carrier protein such as 1 % BSA or HSA. After dilution, the cytokine can be stored between 2 °C and 8 °C for one month or from -20 °C to -70 °C for up to 3 months.
- 缓冲液
- 0.22 μm filtered protein solution is in PBS.
- 注意事项
- Avoid repeated freeze/thaw cycles.
- 储存条件
- -20 °C
- 储存方法
- Unopened vial can be stored between 2°C and 8°C for three months, at -20°C for six months, or at -70°C for one year.
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- 抗原
- MIF (Macrophage Migration Inhibitory Factor (Glycosylation-Inhibiting Factor) (MIF))
- 别名
- MIF (MIF 产品)
- 别名
- mif Protein, Mif Protein, gif Protein, glif Protein, mmif Protein, LOC100136498 Protein, LOC100284350 Protein, LOC100284546 Protein, GIF Protein, Glif Protein, GLIF Protein, MMIF Protein, macrophage migration inhibitory factor L homeolog Protein, macrophage migration inhibitory factor Protein, macrophage migration inhibitory factor (glycosylation-inhibiting factor) Protein, mif.L Protein, mif Protein, MIF Protein, Mif Protein, PHATRDRAFT_49660 Protein, LOC100136498 Protein, cl405_1 Protein, LOC100284546 Protein
- 背景
- MIF was discovered in the 1960's as a T-lymphocyte product that inhibits the random migration of macrophages during delayed-type hypersensitivity responses. This cytokine is a single, non-glycosylated, 115 amino acid polypeptide that has a β-α-β motif. It is known that MIF induces inflammatory cytokines, nitric oxide and superoxide anions, and regulates macrophage and lymphocyte proliferation. The immunoregulatory activities of MIF are based upon transcriptional regulation of inflammatory gene products, modulation of cell proliferation and cell cycle inhibition of p53-mediated apoptosis, and a number of metabolic effects. MIF also demonstrates broad regulatory properties and is considered to be a critical mediator of multiple disorders, including inflammatory and autoimmune diseases such as rheumatoid arthritis, glomerulonephritis, diabetes, atherosclerosis, sepsis, asthma, and acute respiratory distress syndrome. Furthermore, studies have highlighted the role of MIF in tumorigenesis. Human cancer tissues, including skin, brain, breast, colon, prostate, and lung-derived tumors, overexpress MIF, MIF levels correlated with tumor aggressiveness and metastatic potential. Therefore, MIF is considered a viable therapeutic target for treating inflammatory diseases and neoplasia. In addition to its physiologic and pathophysiologic activities, MIF is known to act as a tautomerase and has a catalytically active N-terminal proline that is invariant in structurally homologous bacterial isomerases. Although the relationship between the catalytic activity and biological function of MIF is not yet fully understood, targeting MIF tautomerase activity using small-molecule inhibitors has emerged as an attractive strategy for inhibiting MIF proinflammatory activity and attenuating its biological activity in vitro and in vivo. Human and mouse MIF share a 90 % homology.
- 分子量
- The 115 amino acid recombinant protein has a predicted molecular mass of approximately 12.5 kDa. The protein migrates above 14 kDa by SDS-PAGE in DTT-reducing conditions and above 12.5 kDa in non-reducing conditions. The predicted N-terminal amino acid is
- 途径
- Regulation of Systemic Arterial Blood Pressure by Hormones, Positive Regulation of Immune Effector Process, Production of Molecular Mediator of Immune Response, Regulation of Carbohydrate Metabolic Process, Feeding Behaviour, Smooth Muscle Cell Migration, Negative Regulation of intrinsic apoptotic Signaling
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