QuickSwitch™:MHC四聚体平台,用于制作快速可靠的定制四聚体,用于T细胞染色

Y. Poluektov, M. Delcommenne
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引用次数: 0

摘要

自20世纪90年代末以来,使用MHC四聚体来识别抗原特异性T细胞已经在免疫学家中广泛应用。四聚体已经变得如此普遍,以至于许多公司和研究机构可以在几天内运送和交付一些最常用的四聚体。但是当涉及到最近才被发现的不常见的四聚体或带有抗原肽的四聚体时,找到所需的四聚体可能是相当大的挑战。在这种情况下,大多数研究人员只能尝试自己生产四聚体,或者让另一家机构为他们生产,这可能是一个漫长的过程。为了帮助这些研究人员,我们开发了QuickSwitch™MHC四聚体。这个MHC四聚体装载了一个占位肽(或退出肽),可以交换给定MHC单倍型的大多数结合良好的肽。通过这种方式,研究人员可以在几小时内用任何可用的肽合成四聚体。更重要的是,我们的MHC四聚体平台提供了一种方法来监测有多少可用肽与现有肽交换并量化MHC占用。这使得用户不仅可以确定所讨论的肽是否可以形成可行的MHC四聚体,还可以确定MHC单倍型的强结合肽和弱结合肽。这一信息对未来的研究,特别是疫苗开发具有不可估量的价值。MBL国际
本文章由计算机程序翻译,如有差异,请以英文原文为准。
QuickSwitch ™: an MHC tetramer platform for making fast and reliable custom tetramers for T cell staining
The use of MHC tetramers to identify antigen specific T cells has become widespread among immunologists since the late 90s. Tetramers have become so ubiquitous that many companies and research facilities can ship and deliver some of the most commonly used tetramers within a matter of days. But when it comes to the uncommon tetramers or tetramers with antigenic peptides that have only recently been identified, it may be quite a challenge to find the needed tetramer. In this case, most researchers are left with trying to produce their own tetramer or having another facility do it for them, which can become a lengthy process. In an effort to help those researchers, we have developed the QuickSwitch ™MHC tetramer. This MHC tetramer comes loaded with a place-holder peptide (or exiting peptide) that can be exchanged for most well-binding peptides of a given MHC haplotype. This way, researchers are able to make a tetramer with any peptide they have available in a matter of hours. More importantly, our MHC tetramer platform comes with a means to monitor how much of the available peptide has exchanged with the exiting peptide and quantify the MHC occupancy. This allows the user to not only determine if the peptide in question can make a viable MHC tetramer, but also identify the strong and weak binding peptides for that MHC haplotype. This piece of information can be invaluable in future studies, in particular for vaccine development. MBL International
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