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Combined effects of metal complexation and size expansion in the electronic structure of DNA base pairs

Authors :
Brancolini G. and R. Di Felice
Source :
134 (2011): 205102., info:cnr-pdr/source/autori:Brancolini G. and R. Di Felice/titolo:Combined effects of metal complexation and size expansion in the electronic structure of DNA base pairs/doi:/rivista:/anno:2011/pagina_da:205102/pagina_a:/intervallo_pagine:205102/volume:134
Publication Year :
2011

Abstract

Novel DNA derivatives have been recently investigated in the pursuit of modified DNA duplexes to tune the electronic structure of DNA-based assemblies for nanotechnology applications. Size-expanded DNAs (e.g., xDNA) and metalated DNAs (M-DNA) may enhance stacking interactions and induce metallic conductivity, respectively. Here we explore possible ways of tailoring the DNA electronic structure by combining the aromatic size expansion with the metal-doping. We select the salient structures from our recent study on natural DNA pairs complexed with transition metal ions and consider the equivalent model configurations for xDNA pairs. We present the results of density functional theory electronic structure calculations of the metalated expanded base-pairs with various localized basis sets and exchange-correlation functionals. Implicit solvent and coordination water molecules are also included. Our results indicate that the effect of base expansion is largest in Ag-xGC complexes, while Cu-xGC complexes are the most promising candidates for nanowires with enhanced electron transfer and also for on-purpose modification of the DNA double-helix for signal detection.

Details

Database :
OpenAIRE
Journal :
134 (2011): 205102., info:cnr-pdr/source/autori:Brancolini G. and R. Di Felice/titolo:Combined effects of metal complexation and size expansion in the electronic structure of DNA base pairs/doi:/rivista:/anno:2011/pagina_da:205102/pagina_a:/intervallo_pagine:205102/volume:134
Accession number :
edsair.cnr...........eb2ab1ed8e3bfd5a4cdf49b52e7f7853