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Desorption of single-stranded nucleic acids from graphene oxide by disruption of hydrogen bonding

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Title
Desorption of single-stranded nucleic acids from graphene oxide by disruption of hydrogen bonding
Author(s)
Joon Soo Park; Hee-Kyung Na; Dal-Hee Min; Dong-Eun Kim
Publication Date
2013-03
Journal
ANALYST, v.138, no.6, pp.1745 - 1749
Publisher
ROYAL SOC CHEMISTRY
Abstract
Graphene oxide (GO) is known to interact with single-stranded nucleic acids through pi-stacking interactions and hydrogen bonds between the nucleobases and the hexagonal cells of GO. It also quenches the fluorescence when the fluorophore comes near to the GO mesh. When single-stranded (ss) regions of either DNA or RNA are present, those regions were adsorbed onto the surface of GO with a quenching of fluorescence located proximally to the GO surface. We demonstrated that bound single-stranded nucleic acids can be readily dissociated from GO by disrupting hydrogen bonding with urea, which was confirmed with fluorescence measurement and gel electrophoresis. Hydrogen bonding mainly contributes to the interaction between GO and single-stranded nucleic acids such as ssDNA and RNA. The GO-coated mesoporous silica nanoparticles (GO–MSNs) were synthesized for better separation of RNAs from cells. Cellular RNAs were readily adsorbed and eluted with ease by using GO–MSN and urea, respectively, demonstrating that GO–MSN and urea elution is a facile RNA extraction method.
URI
https://pr.ibs.re.kr/handle/8788114/1380
DOI
10.1039/c3an36493c
ISSN
0003-2654
Appears in Collections:
Center for RNA Research(RNA 연구단) > 1. Journal Papers (저널논문)
Files in This Item:
2013-03-21-Analyst-Desorption_of_Single-stranded_Nucleic_Acids.pdfDownload

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