Cyclopropenes as Chemical Reporters for Dual Bioorthogonal and Orthogonal Metabolic Labeling of DNA

Dual bioorthogonal labeling enables the investigation and understanding of interactions in the biological environment that are not accessible by a single label. However, applying two bioorthogonal reactions in the same environment remains challenging due to cross-reactivity. We developed a pair of differently modified 2’-deoxynucleosides that solved this issue for dual and orthogonal labeling of DNA. Inverse-electron demand Diels–Alder and photoclick reactions were combined to attach two different fluorogenic labels to genomic DNA in cells. Using a small
synthetic library of 1- and 3-methylcyclopropenyl-modified 2’-deoxynucleosides, two 2’-deoxyuridines were identified to be the fastest-reacting ones for each of the two bioorthogonal reactions. Their orthogonal reactivity could be evidenced in vitro. Primer extension experiments were performed with both 2’-deoxyuridines investigating their replication properties as substitutes for thymidine and evaluating subsequent labeling reactions on the DNA level. Finally, dual, orthogonal and metabolic fluorescent labeling of genomic DNA was demonstrated in HeLa cells. An experimental procedure was developed combining intracellular transport and metabolic DNA incorporation of the two 2’- deoxyuridines with the subsequent dual bioorthogonal labeling using a fluorogenic cyanine-styryl tetrazine and a fluorogenic pyrene-tetrazole. ... mehrThese results are fundamental for advanced metabolic labeling strategies for nucleic acids in the future, especially for live cell experiments.