1. Palladium‐Mediated Cleavage of Proteins with Thiazolidine‐Modified Backbone in Live Cells
- Author
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Ashraf Brik, Ganga B. Vamisetti, Guy Mann, Roman Meledin, and Gandhesiri Satish
- Subjects
010405 organic chemistry ,Thiazolidine ,Proteins ,chemistry.chemical_element ,Total synthesis ,General Chemistry ,General Medicine ,010402 general chemistry ,Cell delivery ,Cleavage (embryo) ,01 natural sciences ,Semisynthesis ,Catalysis ,In vitro ,0104 chemical sciences ,chemistry.chemical_compound ,chemistry ,Biochemistry ,Protein biosynthesis ,Thiazolidines ,Palladium - Abstract
Chemical protein synthesis and biorthogonal modification chemistries allow production of unique proteins for a range of biological studies. Bond-forming reactions for site-selective protein labeling are commonly used in these endeavors. Selective bond-cleavage reactions, however, are much less explored and still pose a great challenge. In addition, most of studies with modified proteins prepared by either total synthesis or semisynthesis have been applied mainly for in vitro experiments with very limited extension to live cells. Reported here is an approach for studying uniquely modified proteins containing a traceless cell delivery unit and palladium-based cleavable element for chemical activation, and monitoring the effect of these proteins in live cells. This approach is demonstrated for the synthesis of a caged ubiquitin-aldehyde, which was decaged for the inhibition of deubiquitinases in live cells.
- Published
- 2019
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