Abstract
Fluorescence resonance energy transfer (FRET) is a valuable tool for studying protein structure, folding and interactions. The steep distance dependence of the FRET efficiency requires the donor and acceptor to be in close proximity (1-7.5 nm) to exhibit sufficient energy transfer. One possibility to overcome this limitation is the usage of a FRET cascade that utilizes more than one FRET pair. Essential for realizing this FRET cascade is the site-specific introduction of multiple fluorophores to a given protein, which remains a great challenge. In this study, orthogonal labeling techniques, including fluorescent protein tagging, oxime ligation and kinetically controlled cysteine conjugation, are employed to introduce three fluorophores at specific sites of Rab1b GTPase, yielding a triple-labeled FRET probe. The generated protein probe exhibits efficient energy transfer from the primary donor enhanced green fluorescent protein over the intermediate acceptor rhodamine to the final acceptor Dy630. The labeling strategy opens up a new avenue for multi-color labeling of proteins, facilitating long-distance FRET studies.
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