In principle, the long emission lifetimes of lanthanide chelates should enable their ultrasensitive detection in biological systems by time-resolved optical microscopy. However, most lanthanide-imaging systems cannot achieve sensitivities that exceed those of conventional fluorescence microscopes, since they are limited by inefficient lanthanide excitation, the low photon flux of excited lanthanide luminophores, and optics-derived background photoluminescence. We recently reported a new lanthanide-imaging modality, trans-reflected illumination with luminescence resonance energy transfer (trLRET), which overcomes each of these constraints. Here we provide a detailed procedure for visualizing endogenous protein expression in zebrafish embryos, using lanthanide-labeled antibodies, Q-switched laser illumination, and trLRET microscopy. These methods allow ultrasensitive molecular imaging in cells and organisms, establishing a new paradigm for biological exploration and discovery.
Keywords: Autofluorescence; Imaging; LRET; Lanthanides; Time-resolved.
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