BlockmasterTM CE系列
免疫
诊断试剂
用封闭剂BlockmasterTMCE510/CE210
目标原料
- Latex beads
- Magnetic beads (Material having a functional group capable of binding to the amino group)
- Colloidal gold particles
结合模式
- Primary ・・・ Covalent coupling
- Secondary ・・・ Physical adsorption
免疫
诊断试剂
用封闭剂BlockmasterTMDB1130
目标原料
- Latex beads
- Magnetic beads
结合模式
- Physical adsorption
通用型
封闭剂BlockmasterTMPA1080
目标原料
- Applicable to various materials and substrates (PSt, PP, COP, Glass, PDMS, PVDF, Nitro cellulose, etc)
结合模式
- Physical adsorption
化学键型封闭剂
BlockmasterTM CE系列封闭剂,是利用JSR独有技术合成的水溶性高分子化合物,分子末端的寡氨短链可以使其与固相载体发生化学结合。通过抑制蛋白质的非特异性吸附、以及提高偶联物的活性,可以获得信噪比(S/N比)更高的试剂。在应用上,可以替代BSA使用,也可以与BSA联合使用。
特点
- 具有独特结构的化合物,在PEG长链末端连接了寡氨基团
- 与固相表面形成牢固的共价结合
- 抑制蛋白质/细胞的非特异性吸附
- 通过维持抗体的立体结构,增强信号
- 提高胶体分散性
聚合物成分构造及功能
利用聚合物一端含有的氨基,可以通过共价结合的方式,固定在含有羧基等基团的固相表面。另外,寡氨短链带有少量正电荷,可以通过静电作用吸附在带负电荷的固相表面或蛋白质上。同时,还能利用未共用电子对的配位结合,用于提高胶体金颗粒的分散稳定性。
BlockmasterTM CE510/210的封闭流程示意图
活化粒子表面的羧基,将抗体等偶联物固定在粒子表面后,加入的BlockmasterTM CE510/CE210将与残留的活化后羧基反应,实现对粒子的封闭。
产品规格
| 品名 | 包装规格 | 固含量 | 缓冲液组分 | 保质期 |
|---|---|---|---|---|
| CE510, CE210 | 100mL, 1000mL | 2% | Water + 0.01% Proclin 950 | Labeled on the bottle |
| 品名 | CE510, CE210 |
| 包装规格 | 100mL, 1000mL |
| 固含量 | 2% |
| 缓冲液组分 | Water + 0.01% Proclin 950 |
| 保质期 | Labeled on the bottle |
CE510和CE210的区别在于,作为主要组分的PEG长链的分子量不同。(CE510:约5,000 / CE210:约2,000)
应用
抑制蛋白吸附/增强信号
使用BlockmasterTM CE510/CE210进行封闭,可以促进抗体的重折叠,有助于维持抗体正确的立体构象,保持抗体的活性从而获得增强信号的效果。另外,聚合物中PEG的亲水性和占位效果可以有效的降低试剂背景。
抗体与CE510、CE210偶联到载体表面,可以提高抗体的免疫应答活性。分散稳定性
分别用BlockmasterTM和BSA处理磁珠后,在细胞裂解液中比较磁珠的分散性。使用BlockmasterTM 处理,可以防止颗粒在溶液中出现不均一的情况。
磁微粒的分散
胶体金颗粒的分散稳定性
文献
- Thangavel Lakshmipriya, Makoto Fujimaki, Subash C.B. Gopinath, Koichi Awazu, Yukichi Horiguchi and Yukio Nagasaki, High-performance waveguide-mode biosensor for detection of Factor IX uses PEG-based blocking agents to suppress non-specific binding and improve sensitivity, Analyst, in press (DOI:10.1039/C3AN00298E).
- Xiaofei Yuan, Dolça Fabregat, Keitaro Yoshimoto and Yukio Nagasaki, High PEGylation Efficiency of Pentaethylenehexamine-end Poly(ethyleneglycol) (mPEG-N6) for Active-ester Surface, Colloid and Surface B: Biointerface, 92, 25-29 (2012) 'doi: 10.1016/j.colsurfb.2011.11.013).
- Xiaofei Yuan, Dolca Fabregat, Keitaro Yoshimoto and Yukio Nagasaki: Development of a high-performance immunolatex based on "soft landing" antibody immobilization mechanism, Colloid and Surface B: Biointreface, Vol. 9945-52(2012)(10.1016/j.colsurfb.2011.09.040)
- Masaki Kubota, Keitaro Yoshimoto, Yuan Xiaofei, Yukio Nagasaki: Improvement of the thermal stability of streptavidin immobilized on magnetic beads by the construction of a mixed poly(ethylene glycol) tethered-chain layer, Polymer Journal, 43, 493-496 (2011).
- Xiaofei Yuan, Dolça Fabregat, Keitaro Yoshimoto ,Yukio Nagasaki, Design of Highly Functional Antiferritin-Immunolatex by Hybridization of Antiferritin/Mixed-PEG Polymers onto Polystyrene Submicroparticles, Biomaterials Chapter 13, pp 243–258 ACS Symposium Series, Vol. 1054 (2010).
- Yuan Xiaofei, Fabregat Dolca, Yoshimoto Keitaro ,Nagasaki Yukio:Efficient Inhibition of Interfacial Nonspecific Interaction to Create Practically Utilizable High Ferritin-Response Immunolatex, Analytical Chemistry, 81 10097-10105 (2009).
- Yuan Xiaofei, Yoshimoto Keitaro, Nagasaki Yukio: High-performance Immunolatex Possessing A Mixed-PEG/Antibody Co-immobilized Surface: High Sensitive Ferritin Immunodiagnostics. Analytical Chemistry: 81(4),1549-1556(2009).
- Furusho Hitoshi, Kitano Katsuhisa, Hamaguchi Satoshi, Nagasaki Yukio: Preparation of Stable Water-Dispersible PEGylated Gold Nanoparticles Assisted by Nonequilibrium Atmospheric-Pressure Plasma Jets. Chemistry of Materials:21(15).3526-3535 (2009).
- Nagasaki Yukio, Kobayashi Hiroshi, Katsuyama Yoshinori, Jomura Tomoko, Sakura Takeshi: Enhanced immunoresponse of antibody/mixed-PEG co-immobilized surface construction of high-performance immunomagnetic ELISA system. Journal of Colloid and Interface Science 309: 524-530 (2007).
储存
请于2-8℃保存。避免冷冻。
