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. 2022 May 23;61(22):e202112931.
doi: 10.1002/anie.202112931. Epub 2022 Mar 30.

A Kinetic and Fluorogenic Enhancement Strategy for Labeling of Nucleic Acids

Morten O Loehr  1 Nathan W Luedtke  1   2
Affiliations

A Kinetic and Fluorogenic Enhancement Strategy for Labeling of Nucleic Acids

Morten O Loehr et al. Angew Chem Int Ed Engl. .

Abstract

Chemical modification of nucleic acids in living cells can be sterically hindered by tight packing of bioorthogonal functional groups in chromatin. To address this limitation, we report here a dual enhancement strategy for nucleic acid-templated reactions utilizing a fluorogenic intercalating agent capable of undergoing inverse electron-demand Diels-Alder (IEDDA) reactions with DNA containing 5-vinyl-2'-deoxyuridine (VdU) or RNA containing 5-vinyl-uridine (VU). Reversible high-affinity intercalation of a novel acridine-tetrazine conjugate "PINK" (KD =5±1 μM) increases the reaction rate of tetrazine-alkene IEDDA on duplex DNA by 60 000-fold (590 M-1 s-1 ) as compared to the non-templated reaction. At the same time, loss of tetrazine-acridine fluorescence quenching renders the reaction highly fluorogenic and detectable under no-wash conditions. This strategy enables live-cell dynamic imaging of acridine-modified nucleic acids in dividing cells.

Keywords: Bioorthogonal Chemistry; Chemical Biology; Diels-Alder Reaction; Intercalating Agent; Nucleic Acid.

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