Abstract

DNA glycosylases initiate base excision repair by first binding, then excising aberrant DNA bases. Saccharomyces cerevisiae encodes a 3-methyladenine (3MeA) DNA glycosylase, Mag, that recognizes 3MeA and various other DNA lesions including 1, N 6-ethenoadenine (ɛA), hypoxanthine (Hx) and abasic (AP) sites. In the present study, we explore the relative substrate specificity of Mag for these lesions and in addition, show that Mag also recognizes cisplatin cross-linked adducts, but does not catalyze their excision. Through competition binding and activity studies, we show that in the context of a random DNA sequence Mag binds ɛA and AP-sites the most tightly, followed by the cross-linked 1,2-d(ApG) cisplatin adduct. While ɛA binding and excision by Mag was robust in this sequence context, binding and excision of Hx was extremely poor. We further studied the recognition of ɛA and Hx by Mag, when these lesions are present at different positions within A:T and G:C tracts. Overall, ɛA was slightly less well excised from each position within the A:T and G:C tracts compared to excision from the random sequence, whereas Hx excision was greatly increased in these sequence contexts (by up to 7-fold) compared to the random sequence. However, given most sequence contexts, Mag had a clear preference for ɛA relative to Hx, except in the TTXTT (X = ɛA or Hx) sequence context from which Mag removed both lesions with almost equal efficiency. We discuss how DNA sequence context affects base excision by various 3MeA DNA glycosylases.

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