Studies on thymine-derived UV photoproducts in DNA--I. Formation and biological role of pyrimidine adducts in DNA.

Abstract

Abstract— Pyrimidine (Pyr) adducts constitute a significant fraction of the photoproducts formed in DNA exposed to far UV light. The primary and secondary DNA structure affects the rate of Pyr adduct formation; for example, it increases with decreasing (Ade + Thy)/(Gua + Cyt) of the DNA and with increasing dehydration, and it is greater in double‐stranded than in single‐stranded DNA. Pyrimidine adducts do not appear to be involved in inter‐strand cross‐links, and 313 nm‐induced photolysis of Pyr adducts does not cause strand breakage. The action spectrum for Pyr adduct formation is qualitatively similar to that for Pyr < > Pyr formation; the calculated quantum yields for its formation is essentially wavelength independent over the range 254 nm to 280 nm, but decreased somewhat at shorter wavelengths (240 nm). The biological role of Pyr adducts is still not clear. The data suggest that either Pyr adducts and their photolysis products are not lethal, or that both are lethal but can be repaired under certain conditions.