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  • Adapting the Glaser Reaction for Bioconjugation: Robust Access to Structurally Simple, Rigid Linkers.

Adapting the Glaser Reaction for Bioconjugation: Robust Access to Structurally Simple, Rigid Linkers.

Angewandte Chemie (International ed. in English) (2017-07-08)
Anthony P Silvestri, Philip A Cistrone, Philip E Dawson
ABSTRACT

Copper-mediated coupling between alkynes to generate a structurally rigid, linear 1,3-diyne linkage has been known for over a century. However, the mechanistic requirement to simultaneously maintain CuI and an oxidant has limited its practical utility, especially for complex functional molecules in aqueous solution. We find that addition of a specific bpy-diol ligand protects unprotected peptides from CuII -mediated oxidative damage through the formation of an insoluble CuII gel which solves the critical challenge of applying Glaser coupling to substrates that are degraded by CuII . The generality of this method is illustrated through the conjugation of a series of polar and nonpolar labels onto a fully unprotected GLP-1R agonist through a linear 7 Å diynyl linker.

MATERIALS
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Product Description

Sigma-Aldrich
Biotin-PEG4-alkyne, for copper catalyzed click labeling