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Abstract
The development of reagents that can selectively react in complex biological media is an important challenge. Here we show that N1-alkylation of 1,2,4-triazines yields the corresponding triazinium salts, which are three orders of magnitude more reactive in reactions with strained alkynes than the parent 1,2,4-triazines. This powerful bioorthogonal ligation enables efficient modification of peptides and proteins. The positively charged N1-alkyl triazinium salts exhibit favorable cell permeability, which makes them superior for intracellular fluorescent labeling applications when compared to analogous 1,2,4,5-tetrazines. Due to their high reactivity, stability, accessibility and improved water solubility, the new ionic heterodienes represent a valuable addition to the repertoire of existing modern bioorthogonal reagents.
Supplementary materials
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Supporting information
Description
synthetic procedures, computational study, kinetic measurements, stability studies, logP, mutually ortohognal click experiments, labeling of biomolecules, cell labeling, fluorescent properties and toxicity study
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Title
Copies of NMR spectra
Description
Copies of NMR spectra
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