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Repair of the major lesion resulting from C5'-oxidation of DNA.

Biochemistry (2011-06-24)
Kwan-Young Jung, Tetsuya Kodama, Marc M Greenberg
ABSTRACT

Oxidation of the C5'-position of DNA results in direct strand scission. The 3'-fragments produced contain DNA lesions at their 5'-termini. The major DNA lesion contains an aldehyde at its C5'-position, but its nucleobase is unmodified. Excision of the lesion formed from oxidation of thymidine (T-al) is achieved by strand displacement synthesis by DNA polymerase β (Pol β) in the presence or absence of flap endonuclease 1 (FEN1). Pol β displaces T-al and thymidine with comparable efficiency, but less so than a chemically stabilized abasic site analogue (F). FEN1 cleaves the flaps produced during strand displacement synthesis that are two nucleotides or longer. A ternary complex containing T-al is also a substrate for the bacterial UvrABC nucleotide excision repair system. The sites of strand scission are identical in ternary complexes containing T-al, thymidine, or F. UvrABC incision efficiency of these ternary complexes is comparable as well but significantly slower than a duplex substrate containing a bulky substituted thymidine. However, cleavage occurs only on the 5'-fragment and does not remove the lesion. These data suggest that unlike many lesions the redundant nature of base excision and nucleotide excision repair systems does not provide a means for removing the major damage product produced by agents that oxidize the C5'-position. This may contribute to the high cytotoxicity of drugs that oxidize the C5'-position in DNA.

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Sigma-Aldrich
Ethylenediaminetetraacetic acid ferric sodium salt, BioReagent, suitable for plant cell culture, crystalline