Nucleic Acids Research

Nucleic Acids Research 2006 34(5):1501-1511; doi:10.1093/nar/gkl026

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Published online 14 March 2006

© The Author 2006. Published by Oxford University Press. All rights reserved
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Article

C5'- and C3'-sugar radicals produced via photo-excitation of one-electron oxidized adenine in 2'-deoxyadenosine and its derivatives

Amitava Adhikary, David Becker, Sean Collins, Jessica Koppen and Michael D. Sevilla^*

Department of Chemistry, Oakland University Rochester, MI 48309, USA

^*To whom correspondence should be addressed. Tel: +1 248 370 2328; Fax: +1 248 370 2321; Email: sevilla{at}oakland.edu

Received January 5, 2005. Revised February 16, 2006. Accepted February 16, 2006.

We report that photo-excitation of one-electron-oxidized adenine [A(-H)•] in dAdo and its 2'-deoxyribonucleotides leads to formation of deoxyribose sugar radicals in remarkably high yields. Illumination of A(-H)• in dAdo, 3'-dAMP and 5'-dAMP in aqueous glasses at 143 K leads to 80-100% conversion to sugar radicals at C5' and C3'. The position of the phosphate in 5'- and 3'-dAMP is observed to deactivate radical formation at the site of substitution. In addition, the pH has a crucial influence on the site of sugar radical formation; e.g. at pH 5, photo-excitation of A(-H)• in dAdo at 143 K produces mainly C5'• whereas only C3'• is observed at high pH 12. ¹³C substitution at C5' in dAdo yields ¹³C anisotropic couplings of (28, 28, 84) G whose isotropic component 46.7 G identifies formation of the near planar C5'•. A ß-¹³C 16 G isotropic coupling from C3'• is also found. These results are found to be in accord with theoretically calculated ¹³C couplings at C5' [DFT, B3LYP, 6-31(G) level] for C5'• and C3'•. Calculations using time-dependent density functional theory [TD-DFT B3LYP, 6-31G(d)] confirm that transitions in the near UV and visible induce hole transfer from the base radical to the sugar group leading to sugar radical formation.

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