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Enabling Universal Access to Rapid and Stable Tetrazine Bioorthogonal Probes through Triazolyl-Tetrazine Formation

Haojie Yang, Hongbao Sun, Yinghan Chen, Yayue Wang, Cheng Yang, Fang Yuan, Xiaoai Wu, Wei Chen, Ping Yin, Yong Liang, Haoxing Wu

2024JACS Au26 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Despite the immense potential of tetrazine bioorthogonal chemistry in biomedical research, the in vivo performance of tetrazine probes is challenged by the inverse correlation between the physiological stability and reactivity of tetrazines. Additionally, the synthesis of functionalized tetrazines is often complex and requires specialized reagents. To overcome these issues, we present a novel tetrazine scaffold─triazolyl-tetrazine─that can be readily synthesized from shelf-stable ethynyl-tetrazines and azides. Triazolyl-tetrazines exhibit improved physiological stability along with high reactivity. We showcase the effectiveness of this approach by creating cell-permeable probes for protein labeling and live cell imaging, as well as efficiently producing 18 F-labeled molecular probes for positron emission tomography imaging. By utilizing the readily available pool of functionalized azides, we envisage that this modular approach will provide universal accessibility to tetrazine bioorthogonal tools, facilitating applications in biomedicine and materials science.

Topics & Concepts

TetrazineBioorthogonal chemistryComputer scienceChemistryProgramming languageCombinatorial chemistryClick chemistryOrganic chemistryClick Chemistry and ApplicationsMonoclonal and Polyclonal Antibodies ResearchChemical Synthesis and Analysis