Graftable SCoMPIs enable the labeling and X-ray fluorescence imaging of proteins.
Sarah HostachyMarie MasudaTakayuki MikiItaru HamachiSandrine SaganOlivier LequinKadda MedjoubiAndrea SomogyiNicolas DelsucClotilde PolicarPublished in: Chemical science (2018)
Bio-imaging techniques alternative to fluorescence microscopy are gaining increasing interest as complementary tools to visualize and analyze biological systems. Among them, X-ray fluorescence microspectroscopy provides information on the local content and distribution of heavy elements (Z ≥ 14) in cells or biological samples. In this context, similar tools to those developed for fluorescence microscopy are desired, including chemical probes or tags. In this work, we study rhenium complexes as a convenient and sensitive probe for X-ray fluorescence microspectroscopy. We demonstrate their ability to label and sense exogenously incubated or endogenous proteins inside cells.
Keyphrases
- single molecule
- high resolution
- fluorescence imaging
- induced apoptosis
- living cells
- cell cycle arrest
- energy transfer
- dual energy
- photodynamic therapy
- signaling pathway
- small molecule
- healthcare
- optical coherence tomography
- magnetic resonance imaging
- electron microscopy
- mass spectrometry
- computed tomography
- magnetic resonance