Description
50 microliter pre-assembled nanodisc, 0.5 mM concentrated, containing MSP1D1deltaH5-His protein and DMPC + 10% biotinylated PE lipids. For use in cell-free reactions.
Product is shipped on dry ice - additional freight charges apply.
产品简介:
Nanodisc可使膜蛋白处于一个类似磷脂双分子层的环境中,从而保证膜蛋白能够像在天然的细胞膜中维持其构象和生物学功能。Nanodisc这种全新的膜蛋白提取工具打破了原有提取方法的瓶颈,能够很好地维持膜蛋白的稳定,如此可以推动膜蛋白领域的研究工作。Nanodisc是由膜支架蛋白(membrane scaffold proteins,MSPs)和磷脂分子构成的磷脂双分子层类膜结构。整合到Naonodisc中的膜蛋白可以保持其生物学活性,为膜蛋白的研究提供了便利。
根据不同的实验情况,科研人员可以使用两种不同的策略来包裹其想要获得的膜蛋白。对于已经分离并溶解在去污剂中的膜蛋白,我们推荐使用膜支架蛋白(MSPS)并配合磷脂分子使用。针对不同的需求我们提供多种膜支架蛋白和多种磷脂分子以及不同配合的试剂盒供选择。而用于无细胞表达系统所生产的膜蛋白,我们推荐使用已经组装好的空载纳米磷脂盘来包裹/插入其目标膜蛋白。您可以直接购买组装好的纳米磷脂盘或相应的试剂盒自行组装。
产品优势:
1)德国制造, 欧美领先蛋白纯化产品供应商;
2)专用于膜蛋白的研究,提供带有His-tag和不带标签的MSPs膜支架蛋白(人源和鼠源);
3)提供四种不同尺寸的MSPs膜支架蛋白 (MSP1D1/MSP1D1-dH5/MSP1E3D1/MSP2N2);
4)分别提供配备DMPC、POPC和DMPG磷脂的试剂盒(根据研究发现,不同膜蛋白在不同磷脂双分子环境下其活性有所不同,例如:真核磷脂环境和原核磷脂等环境,可按照实际需求订购,见图1);
5)详尽的操作指南和专业技术支持;
6)配合PureCube Rho1D4 Agarose使用,是有效的膜蛋白提取解决方案;
7)Nanodisc系列产品MSP1D1-His和MSP1D1dH5-His的应用已刊登在《美国化学会-应用材料与界面》(ACS Applied Materials & Interfaces): Zeno, W.F. et al. Spectroscopic Characterization of Structural Changes in Membrane Scaffold Proteins Entrapped wit hin Mesoporous Silica Gel Monoliths. Applied Materials & Interfaces 2015, 7, 8640-8649.
What our customers say:
订购信息:
26112 | MSP1D1-His, lyophilized protein (2 mg) |
26116 | MSP1D1-His, lyophilized protein (10 mg) |
26122 | MSP1D1 dH5-His, lyophilized protein (2 mg) |
26126 | MSP1D1 dH5-His, lyophilized protein (10 mg) |
26152 | MSP1E3D1-His, lyophilized protein (2 mg) |
26156 | MSP1E3D1-His, lyophilized protein (10 mg) |
26172 | MSP2N2-His, lyophilized protein (2 mg) |
26176 | MSP2N2-His, lyophilized protein (10 mg) |
26512 | mouse MSP1D1-His, lyophilized protein (2 mg) |
26516 | mouse MSP1D1-His, lyophilized protein (10 mg) |
26552 | mouse MSP1E3D1-His, lyophilized protein (2 mg) |
26556 | mouse MSP1E3D1-His, lyophilized protein (10 mg) |
26211 | Nanodisc Assembly Kit MSP1D1-His_DMPC |
26213 | Nanodisc Assembly Kit MSP1D1-His_POPC |
26221 | Nanodisc Assembly Kit MSP1D1 dH5-His_DMPC |
26223 | Nanodisc Assembly Kit MSP1D1 dH5-His_POPC |
26251 | Nanodisc Assembly Kit MSP1E3D1-His _DMPC |
26253 | Nanodisc Assembly Kit MSP1E3D1-His _POPC |
26311 | Nanodisc MSP1D1-His_DMPC (50 uL) |
26313 | Nanodisc MSP1D1-His_POPC (50 uL) |
26315 | Nanodisc MSP1D1-His_DMPG (50 uL) |
26321 | Nanodisc MSP1D1 dH5-His_DMPC (50 uL) |
26323 | Nanodisc MSP1D1 dH5-His_POPC (50 uL) |
26351 | Nanodisc MSP1E3D1-His_DMPC (50 uL) |
26353 | Nanodisc MSP1E3D1-His_POPC (50 uL) |
26355 | Nanodisc MSP1E3D1-His_DMPG (50 uL) |
26371 | Nanodisc MSP2N2-His_DMPC (50 uL) |
26373 | Nanodisc MSP2N2-His_POPC (50 uL) |
26421 | Nanodisc MSP1D1 dH5-His_DMPC_Biotinyl_PE (50 ul) |
26711 | Nanodisc mouse MSP1D1-His_DMPC (50 uL) |
26713 | Nanodisc mouse MSP1D1-His_POPC (50 uL) |
26751 | Nanodisc mouse MSP1E3D1-His_DMPC (50 uL) |
26753 | Nanodisc mouse MSP1E3D1-His_POPC (50 uL) |
References:
1. Zeno, Wade F., et al. "Dynamics of crowding-induced mixing in phase separated lipid bilayers." The Journal of Physical Chemistry B 120.43 (2016): 11180-11190.
2. Efremov, Rouslan G., Christos Gatsogiannis, and Stefan Raunser. "Lipid nanodiscs as a tool for high-resolution structure determination of membrane proteins by single-particle cryo-EM." Methods in enzymology. Vol. 594. Academic Press, 2017. 1-30.
3. Carvalho, Vanessa, Joachim W. Pronk, and Andreas H. Engel. "Characterization of Membrane Proteins Using Cryo‐Electron Microscopy." Current protocols in protein science 94.1 (2018): e72.
4. Murugathas, Thanihaichelvan, et al. "Biosensing with Insect Odorant Receptor Nanodiscs and Carbon Nanotube Field-Effect Transistors." ACS applied materials & interfaces 11.9 (2019): 9530-9538.
5. Damiati, Samar, et al. "Albumin-bound nanodiscs as delivery vehicle candidates: Development and characterization." Biophysical chemistry 251 (2019): 106178.
6. Rues, Ralf-Bernhardt, et al. "Cell-free production of membrane proteins in Escherichia coli lysates for functional and structural studies." Heterologous Expression of Membrane Proteins. Humana Press, New York, NY, 2016. 1-21.
7. Gatsogiannis, Christos, et al. "Membrane insertion of a Tc toxin in near-atomic detail." Nature structural & molecular biology 23.10 (2016): 884.
8. Morozova, Kateryna, et al. "Structural and biological interaction of hsc-70 protein with phosphatidylserine in endosomal microautophagy." Journal of Biological Chemistry 291.35 (2016): 18096-18106.
9. Martens, Chloe et al. "Integrating hydrogen–deuterium exchange mass spectrometry with molecular dynamics simulations to probe lipid-modulated conformational changes in membrane proteins" Nature Protocols (2019): 18096-18106.
成都正民德思生物科技有限公司致力于成为中国与世界生物技术产业的纽带,以务实的原则将欧洲高科技、高质量、高效能的产品引进中国。正民德思从2013年起至今,作为生物制药和体外诊断领域相关产品的供应商,秉承“为客户增值”的企业价值观提供优质的服务,通过对合作伙伴、客户及社会的契约责任的高度重视,已积累与中国、德国、西班牙、奥地利、美国、芬兰等众多知名生命科学企业、生物技术公司、制药公司、科研院校的合作经验,并获得合作伙伴和客户的高度认可并保持稳固的战略合作关系,互相支持、共同发展。
目前,成都正民德思生物科技有限公司作为德国蛋白纯化产品生产商/服务商Cube Biotech生物科技公司中国独家总代理、西班牙生物磁性分离设备制造商SEPMAG中国独家总代理、西班牙免疫诊断试剂研发服务商Pragmatic Diagnostics公司的中国独家战略合作方,在成都成立Cube Biotech、SEPMAG和Pragmatic Diagnostics的中国总部办事处,全权负责在中国地区的营销事务、销售及售后服务等所有工作。
