Litcius/Paper detail

Energy-transfer photoproximity labelling in live cells using an organic cofactor

Leander Crocker, Jan Vincent V. Arafiles, Judith M. Müchler, Max Ruwolt, Kristin Kemnitz‐Hassanin, Kilian Roßmann, Christian E. Stieger, Fan Liu, Nataliya Archipowa, Roger Jan Kutta, Christian P. R. Hackenberger

2025Nature Chemistry18 citationsDOIOpen Access PDF

Abstract

Photocatalytic proximity labelling has emerged as a powerful tool to resolve a variety of biomolecular and cellular interactions. Although the use of high-resolution probes, such as diazirines, enables cell-surface protein labelling with nanometre precision, intracellular applications are limited by either the intrinsic toxicity of metal-based photocatalysts or by the lower resolution when long-lived reactive intermediates are used. Here we describe the discovery, characterization and application of an organic flavin cofactor derivative, deazaflavin, that activates diazirine to generate carbenes via triplet energy transfer and offers excellent biocompatibility. We demonstrate deazaflavin-diazirine energy-transfer labelling (DarT labelling) for cell surfaceome mapping and, most importantly, for intracellular interactome mapping as exemplified for cell-penetrating peptides. We successfully map the localization of linear and cyclic polyarginine cell-penetrating peptides, identifying putative membrane interactors. Furthermore, we show the applicability of DarT labelling over an extended time period by mapping the intracellular trafficking of a stable cyclic derivative to reveal its eventual exocytosis from the cell. We anticipate that DarT labelling could be used to profile intracellular dynamics across diverse biological systems with high spatio-temporal control.

Topics & Concepts

ChemistryLabellingIntracellularDiazirineInteractomeBiochemistryBiophysicsFlavin groupCofactorFörster resonance energy transferProtein–protein interactionAffinity labelExocytosisBioorthogonal chemistryDerivative (finance)MembraneComputational biologyCell membraneMembrane proteinCellPlasma protein bindingLive cell imagingGlycanProtein structureFarnesyltransferaseMolecular beaconGatingFluorescent labellingBODIPYBiotin and Related StudiesClick Chemistry and ApplicationsMolecular Junctions and Nanostructures
Energy-transfer photoproximity labelling in live cells using an organic cofactor | Litcius