改良的fk506结合蛋白FKBP的可逆二聚化突变体

Cellular logistics Pub Date : 2016-05-16 DOI:10.1080/21592799.2016.1204848

Juan J. Barrero, E. Papanikou, Jason C. Casler, K. Day, B. Glick

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引用次数: 12

摘要

FK506结合蛋白(FKBP)是一种结合FK506、雷帕霉素和相关配体的单体。在F36M取代中，配体结合口袋中的Phe36变成Met，导致形成反平行的FKBP二聚体，这些二聚体可以通过配体结合解离成单体。这种FKBP(M)突变体已被用于哺乳动物分泌途径，以产生可通过配体添加溶解的聚集体，从而产生货波。然而，当在酵母中测试这种方法时，我们发现FKBP(M)聚集体的溶解效率很低。改进的可逆二聚化FKBP形成了更容易溶解的聚集体。这个FKBP(L,V)突变体携带F36L突变，增加了配体结合的亲和力，而I90V突变，加速了配体诱导的二聚体解离。FKBP(L,V)突变体扩展了FKBP可逆二聚化的功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An improved reversibly dimerizing mutant of the FK506-binding protein FKBP

FK506-binding protein (FKBP) is a monomer that binds to FK506, rapamycin, and related ligands. The F36M substitution, in which Phe36 in the ligand-binding pocket is changed to Met, leads to formation of antiparallel FKBP dimers, which can be dissociated into monomers by ligand binding. This FKBP(M) mutant has been employed in the mammalian secretory pathway to generate aggregates that can be dissolved by ligand addition to create cargo waves. However, when testing this approach in yeast, we found that dissolution of FKBP(M) aggregates was inefficient. An improved reversibly dimerizing FKBP formed aggregates that dissolved more readily. This FKBP(L,V) mutant carries the F36L mutation, which increases the affinity of ligand binding, and the I90V mutation, which accelerates ligand-induced dissociation of the dimers. The FKBP(L,V) mutant expands the utility of reversibly dimerizing FKBP.

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Cellular logistics

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