Ms. Ebru Akdogan Profile

Ebru Akdogan

at Gaziantep Univ

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Proceedings Article | 7 March 2016 Paper

Development of an optical biosensor based on surface-enhanced Raman scattering for DNA analysis

Tugce Yigit, Ebru Akdogan, Isık Didem Karagoz, Mehmet Kahraman

Proceedings Volume 9704, 970411 (2016) https://doi.org/10.1117/12.2214065

KEYWORDS: Surface enhanced Raman spectroscopy, Raman spectroscopy, Silver, Molecules, Biological research, Luminescence, Raman scattering, Atomic force microscopy, Optical biosensors, Gold

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Rapid, accurate and sensitive DNA analysis is critically important for the diagnostic of genetic diseases. The most common method preferred in practice is fluorescence based microarrays to analyze the DNA. However, there exist some disadvantages related to the above-mentioned method such as the overlapping of the fluorescence emission wavelengths that can diminish in the performance of multiplexing, needed to obtain fluorescence spectra from each dye and photo degradation. In this study, a novel SERS based DNA analysis approach, which is Raman active dye-free and independent of SERS substrate properties, is developed. First, the single strand DNA probe is attached to the SERS substrate and half of the complimentary DNA is attached to gold nanoparticles, as well. We hypothesize that in the presence of target DNA, the complimentary DNA coupled colloids will bind to the SERS substrate surface via hybridization of single strand target DNA. To test this hypothesis, we used UV/Vis spectroscopy, atomic for microscopy (AFM) and dynamic light scattering (DLS). DNA analysis is demonstrated by a peak shift of the certain peak of the small molecules attached to the SERS substrate surface instead of SERS spectrum obtained in the presence of target DNA from the Raman reporter molecules. The degree of peak shifting will be used for the quantification of the target DNA in the sample. Plasmonic properties of SERS substrates and reproducibility issues will not be considerable due to the use of peak shifting instead of peak intensity for the qualitative analysis.

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