ABSTRACT
The ability to artificially attach lipids to specific intracellular protein targets would be a valuable approach for controlling protein localization and function in cells. We recently devised a chemogenetic method in which a SNAP-tag fusion protein can be translocated from the cytoplasm to the plasma membrane by post-translationally and covalently conjugating a synthetic lipopeptide in cells. However, the first-generation system lacked general applicability. Herein, we present an improved synthetic lipidation system that enables efficient plasma membrane translocation of SNAP-tag fusion proteins in cells. This second-generation system is now applicable to the control of various cell-signaling molecules, offering a new and useful research tool in chemical biology and synthetic biology.
Competing Interest Statement
T.Y., S.S., and S.T. are co-inventors on Japan patent application No. 2020-030868 that includes the mDc motif described in this paper. Other authors declare no competing interests.