FETCH enables fluorescent labeling of membrane proteins in vivo with spatiotemporal control in Drosophila

Fluorescent labeling approaches are crucial for elucidating protein function and dynamics. While enhancer trapping in Drosophila has been useful for the characterization of gene transcription, protein-specific visualization in vivo has been more elusive. To overcome these limitations, we developed Fluorescent Endogenous Tagging with a Covalent Hook (FETCH) to label cell surface proteins (CSPs) in vivo through a stable covalent bond mediated by the DogTag-DogCatcher peptide partner system ¹ . FETCH leverages a spontaneous covalent isopeptide bond that forms between the 23-amino acid DogTag and the 15-kDa DogCatcher. Unlike most tags that work best at protein termini, DogTag is optimized for function in protein loops, expanding the range of sites that can be targeted in proteins. In FETCH, DogTag is introduced into extracellular loops of CSPs through genome engineering, enabling covalent bond formation with a genetically encoded DogCatcher-GFP fusion protein that can be secreted from a variety of cell types. We describe a flow cytometry-based platform for the identification of efficient DogTag insertion sites in vitro and demonstrate the ability to visualize both tagged DIP-α and Dpr10 in vivo , two immunoglobulin superfamily proteins that facilitate neuronal target recognition at Drosophila neuromuscular junctions and brain synapses. The versatility of FETCH enables fluorescent labeling with precise temporal and spatial control in vivo , enabling applications previously unfeasible.