Abstract
Two sets of bioorthogonally applicable, double fluorogenic probes, capable of sensing DNA–protein interactions, were prepared by installing an azide or tetrazine motif onto structurally fluorogenic, DNA sensitive frames. Installation of these bioorthogonal functions onto DNA intercalating dyes furnished these scaffolds with reactivity based fluorogenicity, rendering these probes double-fluorogenic, AND-type logic switches that require the simultaneous occurrence of a bioorthogonal reaction and interaction with DNA to trigger high intensity fluorescence. The probes were evaluated for double fluorogenic behavior in the presence/absence of DNA and a complementary bioorthogonal function. Our studies revealed that azide and tetrazine appending thiazole orange frames show remarkable double fluorogenic features. One of these probes, a membrane permeable tetrazine modified thiazole orange derivative was further tested in live cell labeling studies. Cells expressing bioorthogonalized DNA-binding proteins showed intensive fluorescence characteristics of the localization of the proteins upon treatment with our double fluorogenic probe. On the contrary, labeling similarly bioorthogonalized cytosolic proteins did not result in the appearance of the fluorescence signal. These studies suggest that such double-fluorogenic probes are indeed capable of sensing DNA–protein interactions in cells.
Highlights
DNA–protein interactions are essential to many of the basic mechanisms of life, such as transcription, replication, gene activation/silencing, DNA packaging, or gene editing.The central role of these processes in cell functioning, maturation, differentiation, or in tumorigenesis calls for methods that allow us to obtain improved insight into these events at the biomolecular level
Evaluation of the results revealed that Thiazol orange azide (TOA) possesses remarkable double fluorogenic features
We have explored the viability of bimodal chemosensors in order to
Summary
Attila Kormos 1 , Alexandra Egyed 1,2 , Jasmine M.
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