Moonschi Faruk H, Fox-Loe Ashley M, Fu Xu, Richards Chris I
Department of Chemistry, University of Kentucky, Lexington, Kentucky, USA.
Bio Protoc. 2018 May 5;8(9). doi: 10.21769/BioProtoc.2825.
Cell-derived vesicles facilitate the isolation of transmembrane proteins in their physiological membrane maintaining their structural and functional integrity. These vesicles can be generated from different cellular organelles producing, housing, or transporting the proteins. Combined with single-molecule imaging, isolated organelle specific vesicles can be employed to study the trafficking and assembly of the embedded proteins. Here we present a method for organelle specific single molecule imaging via isolation of ER and plasma membrane vesicles from HEK293T cells by employing OptiPrep gradients and nitrogen cavitation. The isolation was validated through Western blotting, and the isolated vesicles were used to perform single molecule studies of oligomeric receptor assembly.
细胞衍生的囊泡有助于在其生理膜中分离跨膜蛋白,维持其结构和功能完整性。这些囊泡可以由产生、容纳或运输蛋白质的不同细胞器产生。结合单分子成像,分离出的特定细胞器囊泡可用于研究嵌入蛋白的运输和组装。在此,我们介绍一种通过使用OptiPrep梯度和氮气空化从HEK293T细胞中分离内质网和质膜囊泡来进行细胞器特异性单分子成像的方法。通过蛋白质印迹法验证了分离效果,并将分离出的囊泡用于寡聚受体组装的单分子研究。