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Removal of 3'-phosphoglycolate from DNA strand-break damage in an oligonucleotide substrate by recombinant human apurinic/apyrimidinic endonuclease 1.
Authors:T A Winters   W D Henner   P S Russell   A McCullough     T J Jorgensen
Abstract:A recombinant human AP endonuclease, HAP1, was constructed and characterized with respect to its ability to recognize and act upon a model double-stranded 39-mer oligodeoxyribonucleotide substrate containing a strand break site with 3'-phosphoglycolate and 5'-phosphate end-group chemistries. This oligodeoxyribonucleotide substrate exactly duplicates the chemistry and configuration of a major DNA lesion produced by ionizing radiation. HAP1 was found to recognize the strand break, and catalyze the release of the 3'-phosphoglycolate as free phosphoglycolic acid. The enzyme had a Vmax of 0.1 fmole/min/pg of HAP1 protein, and a Km of 0.05 microM for the 3'-phosphoglycolate strand break lesion. The mechanism of catalysis was hydrolysis of the phosphate ester bond between the 3'-phosphoglycolate moiety and the 3'-carbon of the adjacent dGMP moiety within the oligonucleotide. The resulting DNA contained a 3'-hydroxyl which supported nucleotide incorporation by E. coli DNA polymerase I large fragment. AP endonucleolytic activity of HAP1 was examined using an analogous double-stranded 39-mer oligodeoxyribonucleotide substrate, in which the strand break site was replaced by an apyrimidinic site. The Vmax and Km for the AP endonuclease reaction were 68 fmole/min/pg of HAP1 protein and 0.23 microM, respectively.
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