Adhesive interactions between cells are critical to a variety of processes, including host-pathogen relationships. The authors have developed a new technique for the observation of binding interactions in which molecules obtained from excised tissues are resolved by gel electrophoresis and transferred to a membrane. Biotinylated live cells are then kept in contact with that membrane, and their interactions with proteins of interest are detected by peroxidase-labeled streptavidin, followed by a biotin-streptavidin detection system. The adhesion proteins can eventually be identified by cutting the relevant band(s) and performing mass spectrometry or other amino acid-sequencing methods. The technique described here allows for the identification of both known and novel adhesion molecules capable of binding to live cells, among a complex mixture and without previous isolation or purification. This is especially important for the analysis of host-parasite interactions and may be extended to other types of cell-cell interactions.
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