The Visualization of Peroxisomal Proteins Containing a C-Terminal Targeting Sequence on Western Blot by Using the Biotinylated PTS1-Receptor

Abstract

A procedure to visualize proteins containing a C-terminal peroxisomal targeting signal (PTS1) in complex protein mixtures was developed using a bacterially expressed, biotinylated form of the human PTS1-receptor. The binding of this fusion product to purified PTS1-containing proteins that were separated by SDS–PAGE and blotted onto nitrocellulose was detected by means of streptavidin–alkaline phosphatase and shown to be both saturable and specific. When applied to total tissue extracts, in addition to PTS1-containing proteins various endogenous biotinylated proteins were visualized. Therefore, a two-step staining procedure was optimized whereby the endogenous biotinylated proteins were shielded with a blue precipitate, followed by incubation with the biotinylated receptor and detection of the resulting PTS1-receptor/PTS1-protein complexes with a phosphatase reaction coupled to the formation of a red-colored precipitate. This relatively inexpensive, simple, and fast technique enabled us to visualize a variety of PTS1-containing proteins. In addition, the information presented in this study can be used to facilitate the identification and characterization of receptor–ligand interactions in general and to eliminate interference by endogenous biotinylated proteins intrinsic to the streptavidin–biotin detection system.