Abstract
Fluorescence of DNA-templated copper nanoparticles (DNA-CuNPs) is not stable over time which limits applications in cellular imaging. This is due to the presence of oxygen during synthesis which oxidizes Cu(0) to Cu(II) and also produces the free hydroxyl radical. The authors have prepared DNA-CuNPs with enhanced temporal stability of fluorescence by optimizing the reaction conditions so as to minimize the deleterious effects of oxygen. The operational lifetime of DNA-CuNPs was increased from 25 min to 200 min. Fluorescence spectra of DNA-CuNPs in optimized condition show an emission peak at 650 nm when excited at 340 nm. DNA-CuNPs synthesized in this manner were used for cell imaging. As a proof of concept, the nucleus of a human colon cell line (HCT116) was stained. The method does not involve any chemicals other that copper sulfate and ascorbate. This new approach for generating DNA-CuNPs improves imaging of biological processes and provides a basis for developing other types of DNA-templated nanomaterials.
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This paper was supported by Konkuk University in 2018.
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Kim, S., Kim, J.H., Kwon, W.Y. et al. Synthesis of DNA-templated copper nanoparticles with enhanced fluorescence stability for cellular imaging. Microchim Acta 186, 479 (2019). https://doi.org/10.1007/s00604-019-3620-5
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DOI: https://doi.org/10.1007/s00604-019-3620-5