Uncovering the key role of distortion in tetrazine ligations guides the design of bioorthogonal tools that defy the reactivity/stability tradeoff

Abstract: The tetrazine/trans-cyclooctene ligation stands out from the bioorthogonal toolbox due to its exceptional reaction kinetics, enabling multiple molecular technologies in vitro and in living systems. Highly reactive 2-pyridyl-substituted tetrazines have become state-of-the-art for time-critical processes and selective reactions at very low concentration. It is widely accepted that the enhanced reactivity of these chemical tools is attributed to the electron-withdrawing effect of the heteroaryl substituent. In co… Show more