A reaction-based scenario for fluorescence probing of Au(III) ions in human cells and plants.
Merve Çevik ErenAhmet ErenSuay DartarBeraat Umur KayaMuhammed ÜçüncüCanan VarlikliHüseyin Çağlar KarakayaMustafa EmrullahogluPublished in: Organic & biomolecular chemistry (2023)
A BODIPY-based fluorophore decorated with a gold specific reactive handle ( e.g. , 2-alkynylallyl alcohol) displayed a ratiometric fluorescence change in response to Au 3+ ions with extraordinary selectivity over other competing metal species, including Hg 2+ , Cu 2+ , Zn 2+ and Pd 2+ . By way of a gold-catalyzed intramolecular cyclisation-isomerisation reaction sequence, a BODIPY construct with an extended π-conjugation transformed into a new structure with a relatively short π-system. This unique chemical transformation was accompanied by, and resulted in, a dramatic shift in the emission and absorption wavelength, which could be monitored as distinct changes in the color of the solution's emission. Apart from its outstanding analytical performance in solution, including a quick response time (<10 s), unique specificity, a high-fold ratiometric change (62-fold), and a remarkably low detection limit (358 nM), the probe also proved useful in monitoring Au 3+ ions in human cells and plants ( e.g. , Nicotiana benthamiana ).
Keyphrases
- quantum dots
- sensitive detection
- fluorescent probe
- energy transfer
- living cells
- single molecule
- loop mediated isothermal amplification
- reduced graphene oxide
- aqueous solution
- solid state
- photodynamic therapy
- silver nanoparticles
- gold nanoparticles
- structural basis
- room temperature
- molecular dynamics simulations
- real time pcr
- mass spectrometry
- liquid chromatography
- nitric oxide
- risk assessment