Intramolecular interaction is a common mechanism that regulates protein activities. Conventionally, such interactions are investigated by classical in vitro biochemical assays. Here, we describe a protocol for studying the intramolecular interaction of cell motility and engulfment 1 (ELMO1) in mammalian cells by using proximity ligation assay (PLA). PLA is a specific and sensitive method that allows the observation of interacting proteins by target-specific antibody detection coupled to rolling circle amplification. ELMO1 is the regulatory subunit of ELMO1-dedicator of cytokinesis 180 (DOCK180) bipartite Rac1 guanine nucleotide exchange factor (GEF) which adopts a closed autoinhibitory conformation via an intramolecular interaction of its N-terminal ELMO inhibitory domain (EID) and Cterminal ELMO autoregulatory domain (EAD). In the assay, PLA signals are detected in cells transfected with ELMO1 1-315 and ELMO1 315-727 fragments. Moreover, overexpression of FE65, a neuronal adaptor which has been shown to disrupt ELMO1 intramolecular interaction, reduces the PLA signals of the two ELMO1 fragments significantly. Together, our results demonstrate that PLA can be employed for studying protein intramolecular interaction.
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