Hydroxyapatite nanoparticle based fluorometric determination and imaging of cysteine and homocysteine in living cells.
Yuxin LiCongcong ShenXiaoqing LiMinghui YangChunsheng ShaoPublished in: Mikrochimica acta (2018)
Fluorescent hydroxyapatite nanoparticles (HAP-NPs) were prepared by reacting calcium ion with phosphate in the presence of Eu(III) ion. The HAP-NPs display large Stokes' shift and two strong fluorescence emissions with peaks at 590 nm and 615 nm when excited at 250 nm. The HAP-NPs also have good photostability and water solubility. The HAP-NPs combined with Cu(II) were applied to fluorometric determination of cysteine and homocysteine in biological samples and in living cells. In this detection scheme, the fluorescence of HAP-NPs is initially quenched by Cu(II). The addition of biothiols results in the formation of Cu(II)-thiol complexes and leads to fluorescence recovery. The assay allows cysteine to be detected with a 110 nM detection limit, and homocysteine with a 160 nM detection limit. The assay was successfully applied to the analysis of cysteine in spiked human serum samples and to imaging of cysteine in HeLa cells, and this demonstrates its potential for clinical testing and in biomedical research. Graphical abstract Fluorescent hydroxyapatite nanoparticles were synthesized and combined with Cu2+ for fluorescence sensing of biothiols (cysteine and homocysteine) in complex biological samples and in living cells.
Keyphrases
- living cells
- fluorescent probe
- single molecule
- photodynamic therapy
- oxide nanoparticles
- energy transfer
- molecularly imprinted
- loop mediated isothermal amplification
- high resolution
- label free
- high throughput
- induced apoptosis
- real time pcr
- lactic acid
- aqueous solution
- metal organic framework
- light emitting
- bone regeneration
- tissue engineering
- heavy metals
- signaling pathway
- sensitive detection
- anaerobic digestion