转化生长因子-β(TGF-β)
转化生长因子-β(TGF-β)超家族包含30多个成员,包括TGF-β、激活素(Activin)、抑制素(Inhibin)、骨形态发生蛋白(BMPs)和生长分化因子(GDFs)。它大致可分为两个亚家族:TGF-β/激活素/ nodal亚家族和BMP/GDF/MIS(缪勒管抑制物)亚家族。该超家族在调节细胞增殖、谱系分化、迁移、黏附和凋亡,以及胚胎发育、细胞外基质形成和骨形成与重塑中发挥着关键作用。这种细胞因子被命名为"TGF-β",是因为它能诱导正常成纤维细胞的表型转化——具体而言,在表皮生长因子(EGF)存在下,它会改变内壁成纤维细胞的生长特性,使其能够在琼脂中生长,并在生长过程中失去密度依赖性抑制。
TGF-β家族信号通路的失调是多种疾病的基础:过度激活会导致癌症和慢性器官损伤中的免疫逃逸、上皮-间质转化(EMT)和纤维化,而信号不足则会导致骨骼畸形、心血管缺陷和免疫功能障碍。因此,TGF-β配体、受体和Smad蛋白是有价值的疾病生物标志物。
产品列表
| 靶点 | 产品货号 | 产品名称 | 反应性 | 预测分子量 |
|---|---|---|---|---|
| TGFB3 | PHV1914 | Recombinant Human/Mouse/Rat TGFB3 | Human/Mouse/Rat | 12.7 KDa |
| TGF-beta 2 | PHV1624 | Recombinant Mouse/Rat TGF-beta 2 | Mouse/Rat | 12.7 KDa |
| TGF-beta 1 | PHV1622 | Recombinant Mouse/Rat TGF-beta 1 | Mouse/Rat | 12.8 KDa |
| TGFBR2 (C-Fc) | PHM1711 | Recombinant Mouse TGFBR2 (C-Fc) | Mouse | 42.3 KDa |
| TGFBR2 (C-6His) | PHM1710 | Recombinant Mouse TGFBR2 (C-6His) | Mouse | 16.2 KDa |
| Latent TGF Beta-1 (N-6His) | PHH1709 | Recombinant Human Latent TGF Beta-1 (N-6His) | Human | 29.3&12.8 KDa |
| TGFBR2 (C-Fc) | PHH1625 | Recombinant Human TGFBR2 (C-Fc) | Human | 42.6 KDa |
| TGF-beta 2 | PHH1623 | Recombinant Human TGF-beta 2 | Human | 12.7 KDa |
| TGF-beta 1 | PCH1621 | Recombinant Human TGF-beta 1 | Human | 12.8 KDa |
GDF-8 | Recombinant Human/Mouse/Rat GDF-8 | Human/Mouse/Rat | 13.1 kDa | |
GDF15 (N-8His-Flag) | Recombinant Mouse GDF15 (N-8His-Flag) | Mouse | 16.9 kDa | |
BMP-7 | Recombinant Human BMP-7 | Human | 15.5 kDa | |
| GDF-11 | Recombinant Human GDF-11 | Human | 12.5 kDa | |
| BMP-2 | Recombinant Human/Mouse/Rat BMP-2 | Human/Mouse/Rat | 13.3 kDa | |
| BMP-4 | Recombinant Human BMP-4 | Human | 13.3 kDa | |
| Persephin | PEH1312 | Recombinant Human Persephin | Human | 10.4 kDa |
| GDF-5 | PEH0722 | Recombinant Human GDF-5 | Human | 13.7 kDa |
验证数据
相关产品
参考文献
1. A stepwise mode of TGF β-SMAD signaling and DNA methylation regulates naïve-to-primed pluripotency and differentiation. Hao B, et al. Nat Commun. 2024. [PMID: 39578449]
2. Contextual determinants of TGF β action in development, immunity and cancer. David CJ, et al. Nat Rev Mol Cell Biol. 2018. [PMID: 29643418]
3. Transforming growth factor beta 1: three-dimensional structure in solution and comparison with the X-ray structure of transforming growth factor beta 2. Hinck AP, et al. Biochemistry. 1996. [PMID: 8679613]
4. TGF-beta signaling in tumor suppression and cancer progression. Derynck R, Nat Genet. 2001. [PMID:11586292]
5. Transforming growth factor Beta family: insight into the role of growth factors in regulation of fracture healing biology and potential clinical applications. Poniatowski ŁA, et al. Mediators Inflamm. 2015. [PMID:25709154]
6. Structural biology of the TGFβ family. Goebel EJ, et al. Exp Biol Med (Maywood). 2019. [PMID:31594405]
7. Mechanisms of TGF-beta signaling from cell membrane to the nucleus. Shi Y, et al. Cell. 2003. [PMID: 12809600]
8. Regulation of inflammatory lung injury and repair by transforming growth factors. Chakrabarti M, et al. Am J Physiol Lung Cell Mol Physiol. 2025. [PMID: 40920668]
