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Uncovering the Key Role of Distortion in Bioorthogonal Tetrazine Tools That Defy the Reactivity/Stability Trade-Off

Dennis Svatunek, Martin Wilkovitsch, Lea Hartmann, K. N. Houk, Hannes Mikula

2022Journal of the American Chemical Society103 citationsDOIOpen Access PDF

Abstract

-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 concentrations. It is widely accepted that the enhanced reactivity of these chemical tools is attributed to the electron-withdrawing effect of the heteroaryl substituent. In contrast, we show that the observed reaction rates are way too high to be explained on this basis. Computational investigation of this phenomenon revealed that distortion of the tetrazine caused by intramolecular repulsive N-N interaction plays a key role in accelerating the cycloaddition step. We show that the limited stability of tetrazines in biological media strongly correlates with the electron-withdrawing effect of the substituent, while intramolecular repulsion increases the reactivity without reducing the stability. These fundamental insights reveal thus far overlooked mechanistic aspects that govern the reactivity/stability trade-off for tetrazines in physiologically relevant environments, thereby providing a new strategy that may facilitate the rational design of these bioorthogonal tools.

Topics & Concepts

ChemistryBioorthogonal chemistryTetrazineReactivity (psychology)Key (lock)Stability (learning theory)Distortion (music)Combinatorial chemistryComputational chemistryOrganic chemistryClick chemistryOperating systemEngineeringAmplifierMachine learningElectronic engineeringAlternative medicinePathologyMedicineComputer scienceCMOSClick Chemistry and ApplicationsChemical Synthesis and AnalysisMonoclonal and Polyclonal Antibodies Research
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