Intein‐Mediated Construction of a Library of Fluorescent Rab GTPase Probes

Rab GTPases play a key role in the regulation of membrane trafficking. Post‐translational geranylgeranylation is critical for their biological activity and is conferred by Rab geranylgeranyl transferease (RabGGTase), together with an accessory factor, Rab escort protein (REP). Mechanistic studies of Rab prenylation and identification of RabGGTase inhibitors require sensitive reporters of Rab prenylation. In the present work, a combination of protein engineering and expressed protein ligation was used to construct a library of semisynthetic Rab7 fluorescent conjugates. In order to avoid synthesis of a large number of fluorescently labeled peptides, we developed a strategy that combined thiol‐reactive dye‐labeling of cysteine with in vitro protein ligation. Application of this strategy required optimization of labeling and ligation conditions to promote thiol labeling and disfavor intramolecular cyclization. Using this approach, we constructed 46 fluorescent sensors with different spectral properties that reported on the interaction of Rab7 with RabGGTase, REP‐1, and the overall prenylation reaction. Two constructs, Rab7Δ3CCK(NBD) and Rab7Δ2SCCC–dans, displayed 2.5‐ and 1.5‐fold increase in fluorescence, respectively, upon prenylation. Moreover, dansyl‐, NBD (4‐nitro‐benzofurazan)‐, I‐BA‐, and I‐SO‐labeled Rab7 conjugates exhibited two‐ to tenfold change in fluorescence upon binding to REP or RabGGTase. These fluorescent sensors allowed us to monitor Rab prenylation in real time and to investigate the assembly of Rab–REP binary and Rab–REP–RabGGTase ternary complexes.