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Using CdTe/ZnSe Core/Shell Quantum Dots to Detect DNA and Damage to DNA [Corrigendum]

Moulick A, Milosavljevic V, Vlachova J, et al. Int J Nanomedicine. 2018;12:1277-1291. The authors have advised due to an error that occurred inadvertently at the time of figure assembly, the QD+C image in Figure 1E on page 1282 is incorrect. The correct Figure 1 is as follows. Figure 1 Optical prope...

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Published in:International journal of nanomedicine 2022-04, Vol.17, p.1609-1611
Main Authors: Moulick, Amitava, Milosavljevic, Vedran, Vlachova, Jana, Podgajny, Robert, Hynek, David, Kopel, Pavel, Adam, Vojtech
Format: Article
Language:English
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Summary:Moulick A, Milosavljevic V, Vlachova J, et al. Int J Nanomedicine. 2018;12:1277-1291. The authors have advised due to an error that occurred inadvertently at the time of figure assembly, the QD+C image in Figure 1E on page 1282 is incorrect. The correct Figure 1 is as follows. Figure 1 Optical property analysis and dynamic light scattering (DLS) of the CdTe/ZnSe QDs conjugated with nucleobases. Abbreviations: QD, quantum dot; QD+A, quantum dot + adenine; QD+C, quantum dot + cytosine; QD+G, quantum dot + guanine; QD+T, quantum dot + thymine; SD, standard deviation; SEM, scanning electron microscopy; UV, ultraviolet. Notes: (A) and (C) are showing the absorbance and fluorescence spectra of the QDs with or without nucleobases, respectively. (B) The photographs of the samples under visible light (upper panel) and UV light (lower panel). (D) The fluorescence intensities of the QDs after the interaction with the nucleobases of different concentrations. X-axis is showing the final concentration of the nucleobases in the prepared samples. Y-axis is showing the fluorescence intensities of the samples. Data represent the mean ± SD, n=5. P
ISSN:1178-2013
1176-9114
1178-2013
DOI:10.2147/IJN.S365644