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Fast and Efficient Postsynthetic DNA Labeling in Cells by Means of Strain‐Promoted Sydnone‐Alkyne Cycloadditions

Katja Krell, Bastian Pfeuffer, Franziska Rönicke, Zoeisha S. Chinoy, Camille Favre, Frédéric Friscourt, Hans‐Achim Wagenknecht

2021Chemistry - A European Journal22 citationsDOIOpen Access PDF

Abstract

Abstract Sydnones are highly stable mesoionic 1,3‐dipoles that react with cyclooctynes through strain‐promoted sydnone‐alkyne cycloaddition (SPSAC). Although sydnones have been shown to be valuable bioorthogonal chemical reporters for the labeling of proteins and complex glycans, nucleic acids have not yet been tagged by SPSAC. Evaluation of SPSAC kinetics with model substrates showed fast reactions with cyclooctyne probes (up to k =0.59 M −1 s −1 ), and two different sydnones were effectively incorporated into both 2’‐deoxyuridines at position 5, and 7‐deaza‐2’‐deoxyadenosines at position 7. These modified nucleosides were synthetically incorporated into single‐stranded DNAs, which were successfully postsynthetically labeled with cyclooctyne probes both in vitro and in cells. These results show that sydnones are versatile bioorthogonal tags and have the premise to become essential tools for tracking DNA and potentially RNA in living cells.

Topics & Concepts

SydnoneAlkyneStrain (injury)ChemistryDNACombinatorial chemistryBiologyBiochemistryOrganic chemistryAnatomyRing (chemistry)CatalysisClick Chemistry and ApplicationsChemical Synthesis and AnalysisDNA and Nucleic Acid Chemistry
Fast and Efficient Postsynthetic DNA Labeling in Cells by Means of Strain‐Promoted Sydnone‐Alkyne Cycloadditions | Litcius