Abstract
Schizosaccharomyces pombe ultraviolet DNA endonuclease (UVDE or Uve1p) has been shown to cleave 5' to UV light-induced cyclobutane pyrimidine dimers (CPDs) and pyrimidine-pyrimidone (6-4) photoproducts (6-4PP). This endonuclease is believed to function in the initial step in an alternative excision repair pathway for the removal of DNA damage caused by exposure to UV light. An active truncated form of this protein, Delta228-Uve1p, has been successfully overexpressed, affinity purified and partially characterized. In the present study we present data from a detailed substrate specificity trial. We have determined that the substrate range of Uve1p is much greater than was originally believed. We demonstrate that this DNA damage repair protein is capable of recognizing an array of UV-induced DNA photoproducts (cis-syn-, trans-syn I- and trans-syn II CPDs, 6-4PP and Dewar isomers) that cause varying degrees of distortion in a duplex DNA molecule. We also demonstrate that Uve1p recognizes non-UV-induced DNA damage, such as platinum-DNA GG diadducts, uracil, dihydrouracil and abasic sites. This is the first time that a single DNA repair endonuclease with the ability to recognize such a diverse range of lesions has been described. This study suggests that Uve1p and the alternative excision repair pathway may participate broadly in the repair of DNA damage.
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