Conformation and Proton Configuration of Pyrimidine Deoxynucleoside Oxidation Damage Products in Water

Creators: La Francois, Christopher J.; Jang, Yun Hee; Çağin, Tahir; Goddard, William A., III; Sowers, Lawrence C.

Abstract

Emerging data strongly suggest that the oxidation of DNA bases can contribute to genomic instability. Structural changes to DNA, induced by base oxidation, may reduce the fidelity of DNA replication and interfere with sequence-specific DNA−protein interactions. We have examined the structures of a series of pyrimidine deoxynucleoside oxidation damage products in aqueous solution. The modified nucleosides studied include the deoxynucleoside derivatives of 5-hydroxyuracil, 5-hydroxycytosine, 5-(hydroxymethyl)uracil, 5-(hydroxymethyl)cytosine, 5-formyluracil, and 5-formylcytosine. The influence of base oxidation on ionization constants, sugar conformation, and tautomeric configuration has been determined on the basis of UV, proton, and nitrogen NMR spectra of the ^(15)N-enriched derivatives. The potential biological consequences of the structural perturbations resulting from base oxidation are discussed.

Additional Information

© 2000 American Chemical Society. Received December 20, 1999. Publication Date (Web): May 27, 2000. This work was supported in part by the National Institutes of Health [Grant GM41336 and Cancer Center Support Grant CA33572 (L.C.S.), Grant HD36385 (W.A.G.)]. In addition, the facilities of the MSC are also supported by DOE-ASCI, ARO-MURI, ARO-DURIP, the National Science Foundation Grant CHE-95-22179), Exxon Corp., Dow Chemical, 3M, Beckman Institute, Avery-Dennison, Chevron Corp., Seiko Epson, Asahi Chemical, and BP Amoco.

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