Issue 5, 2014

Loading of an anti-cancer drug onto graphene oxide and subsequent release to DNA/RNA: a direct optical detection

Abstract

Graphene oxide based molecular switching of ellipticine (E) has been utilized to probe its efficient loading onto graphene oxide (GO) and subsequent release to intra-cellular biomolecules like DNA/RNA. The green fluorescence of E switches to blue in GO and switches back to green with polynucleotides. The intensified blue emission of the ellipticine–GO (E–GO) complex with human serum albumin (HSA), switches to a bluish green upon addition of dsDNA. Electron microscopy reveals the formation of distinctive 3D assemblies involving GO and biomolecule(s) probably through non-covalent interactions and this is primarily responsible for the biomolcule(s) assisted fluorescence-switching of E. To our knowledge, such morphological patterning of a GO–DNA complex is very unusual, reported here the first time and could find applications in the fabrication of biomedical devices. Moreover, our approach of direct optical detection of drug loading and releasing is very cheap, appealing and will be useful for clinical trial experiments once the cytotoxicity of GO is duly taken care.

Graphical abstract: Loading of an anti-cancer drug onto graphene oxide and subsequent release to DNA/RNA: a direct optical detection

Supplementary files

Article information

Article type
Paper
Submitted
15 Nov 2013
Accepted
06 Dec 2013
First published
12 Dec 2013

Nanoscale, 2014,6, 2937-2944

Author version available

Loading of an anti-cancer drug onto graphene oxide and subsequent release to DNA/RNA: a direct optical detection

R. K. Koninti, A. Sengupta, K. Gavvala, N. Ballav and P. Hazra, Nanoscale, 2014, 6, 2937 DOI: 10.1039/C3NR06081K

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