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Nucleic Acids Research Advance Access originally published online on December 15, 2007
Nucleic Acids Research 2008 36(1):e7; doi:10.1093/nar/gkm1103
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Nucleic Acids Research, 2008, Vol. 36, No. 1 e7
© 2007 The Author(s)
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Methods Online

In situ oligonucleotide synthesis on carbon materials: stable substrates for microarray fabrication

Margaret F. Phillips1, Matthew R. Lockett1, Matthew J. Rodesch2, Michael R. Shortreed1, Franco Cerrina2 and Lloyd M. Smith1,*

1Department of Chemistry, University of Wisconsin – Madison, 1101 University Ave. Madison and 2Center for Nanotechnology, University of Wisconsin – Madison, 425 Henry Mall, Madison, WI 53706, USA

*To whom correspondence should be addressed. Tel: 608 263 2594; Fax: 608 265 6780; Email: smith{at}chem.wisc.edu

Received August 21, 2007. Revised November 27, 2007. Accepted November 27, 2007.

Glass has become the standard substrate for the preparation of DNA arrays. Typically, glass is modified using silane chemistries to provide an appropriate functional group for nucleic acid synthesis or oligonucleotide immobilization. We have found substantial issues with the stability of these surfaces as manifested in the unwanted release of oligomers from the surface when incubated in aqueous buffers at moderate temperatures. To address this issue, we have explored the use of carbon-based substrates. Here, we demonstrate in situ synthesis of oligonucleotide probes on carbon-based substrates using light-directed photolithographic phosphoramidite chemistry and evaluate the stabilities of the resultant DNA arrays compared to those fabricated on silanized glass slides. DNA arrays on carbon-based substrates are substantially more stable than arrays prepared on glass. This superior stability enables the use of high-density DNA arrays for applications involving high temperatures, basic conditions, or where serial hybridization and dehybridization is desired.


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