We describe a modular activation strategy for cyclopropene-tetrazine ligation. This activation strategy uses chemically diverse enzyme- or photolabile protecting groups as cyclopropene reactivity cages. The linkages between the caging groups and …
Activatable cyclopropenes are unreactive toward their inverse electron demand Diels-Alder reaction partner (e.g., s-tetrazines) until they are activated. The activation strategy is highly modular due to the cyclopropene's ability to be caged by …
Using light or enzymes to control the bioorthogonal reactions of cyclopropenes
The bioorthogonal reaction toolbox contains approximately two-dozen unique chemistries that permit selective tagging and probing of biomolecules. Over the past two decades, significant effort has been devoted to optimizing and discovering …
Bioorthogonal ligations have been designed and optimized to provide new experimental avenues for understanding biological systems. Generally, these optimizations have focused on improving reaction rates and orthogonality to both biology and other …