1. Single‐Molecule Observation of Intermediates in Bioorthogonal 2‐Cyanobenzothiazole Chemistry
- Author
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Yujia Qing, William J. Ramsay, Denis Hartmann, Linna Zhou, Mira D. Liu, and Hagan Bayley
- Subjects
tetrahedral intermediates ,Nanoreactor ,single-molecule studies ,010402 general chemistry ,01 natural sciences ,Catalysis ,chemistry.chemical_compound ,Reaction rate constant ,Dynamic combinatorial chemistry ,Molecule ,nanoreactors ,Research Articles ,010405 organic chemistry ,Thiazoline ,General Medicine ,General Chemistry ,bioorthogonal chemistry ,Combinatorial chemistry ,0104 chemical sciences ,chemistry ,Covalent bond ,click chemistry ,Click chemistry ,Single‐Molecule Studies | Very Important Paper ,Bioorthogonal chemistry ,Research Article - Abstract
We report a single‐molecule mechanistic investigation into 2‐cyanobenzothiazole (CBT) chemistry within a protein nanoreactor. When simple thiols reacted reversibly with CBT, the thioimidate monoadduct was approximately 80‐fold longer‐lived than the tetrahedral bisadduct, with important implications for the design of molecular walkers. Irreversible condensation between CBT derivatives and N‐terminal cysteine residues has been established as a biocompatible reaction for site‐selective biomolecular labeling and imaging. During the reaction between CBT and aminothiols, we resolved two transient intermediates, the thioimidate and the cyclic precursor of the thiazoline product, and determined the rate constants associated with the stepwise condensation, thereby providing critical information for a variety of applications, including the covalent inhibition of protein targets and dynamic combinatorial chemistry., Better off alone: A nanoreactor approach was used to investigate the chemistry of2‐cyanobenzothiazole (CBT), an important bioorthogonal reagent, at the single‐molecule level. Reactions with thiols and aminothiols revealed mechanistic and kinetic information with important implications for several essential applications of CBT reagents.
- Published
- 2020