Protein-protein interactions in living plant cells can be measured by changes in fluorescence anisotropy due to homo-FRET (Förster Resonance Energy Transfer). Here, the energy transfer between identical fluorophores, e.g., enhanced green fluorescent protein (EGFP) fused to a protein of interest, serves as a read-out for protein interaction and clustering. By applying homo-FRET imaging, not only dimeric complexes, but also bigger homomeric complex formation can be followed in vivo at high spatial and temporal resolution. Therefore, this method provides a powerful tool to investigate changes in complex formation over time in their natural environment with high precision at a subcellular level. Here, we describe the necessary theoretical background and how homo-FRET imaging is practically carried out. We also discuss potential pitfalls and points of consideration.
Keywords: Anisotropy; Clustering; FRET; Homo-FRET imaging; Protein–protein interaction.
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