Site-specific bioorthogonal protein labelling by tetrazine ligation using endogenous β-amino acid dienophiles
A recent "Nature Chemistry" paper by the Piel group (IMB) describes a novel bioorthogonal labelling approach. Enzymatically generated dienophiles in proteins readily react with tetrazine derivatives in physiological conditions and intracellularly.
The tetrazine ligation is an inverse electron-demand Diels–Alder reaction widely used for bioorthogonal modifications due to its versatility, site specificity and fast reaction kinetics. A major limitation has been the incorporation of dienophiles in biomolecules and organisms, which relies on externally added reagents. Available methods require the incorporation of tetrazine-reactive groups by enzyme-mediated ligations or unnatural amino acid incorporation.
Here we report a tetrazine ligation strategy, termed TyrEx (tyramine excision) cycloaddition, permitting autonomous dienophile generation in bacteria. It utilizes a unique aminopyruvate unit introduced by post-translational protein splicing at a short tag. Tetrazine conjugation occurs rapidly with a rate constant of 0.625 (15) M−1 s−1 and was applied to produce a radiolabel chelator-modified Her2-binding Affibody and intracellular, fluorescently labelled cell division protein FtsZ. We anticipate the labelling strategy to be useful for intracellular studies of proteins, as a stable conjugation method for protein therapeutics, as well as other applications.
Link to the paper in external page "Nature Chemistry".