Investigations into metabolic processes within the cell have often relied on genetic methods such as forced expression and knockout or knockdown techniques. An alternative approach would be introducing a molecule into the desired location inside the cell. To translocate compounds from outside cells into the endoplasmic reticulum (ER), we constructed a delivery carrier protein. This comprised N-terminal galectin-1 for cell-surface binding (G1), a protease cleavable sequence (ps), a HaloTag domain for attaching exogenous compounds (Halo), and a C-terminal KDEL sequence for ER retention. Fluorescently labeled G1-ps-Halo-KDEL passed through the Golgi apparatus and reached the ER. By using Man9 GlcNAc2 -BODIPY as a cargo compound, the carrier protein was also delivered into the ER with concomitant processing of mannose to Man5,6, by the ER-resident α1,2-mannosidase. G1-ps-Halo-KDEL might serve as a new type of delivery carrier protein to direct compounds into the ER.
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