Issue 42, 2014

Mechanisms for enzymatic cleavage of the N-glycosidic bond in DNA

Abstract

DNA glycosylases remove damaged or enzymatically modified nucleobases from DNA, thereby initiating the base excision repair (BER) pathway, which is found in all forms of life. These ubiquitous enzymes promote genomic integrity by initiating repair of mutagenic and/or cytotoxic lesions that arise continuously due to alkylation, deamination, or oxidation of the normal bases in DNA. Glycosylases also perform essential roles in epigenetic regulation of gene expression, by targeting enzymatically-modified forms of the canonical DNA bases. Monofunctional DNA glycosylases hydrolyze the N-glycosidic bond to liberate the target base, while bifunctional glycosylases mediate glycosyl transfer using an amine group of the enzyme, generating a Schiff base intermediate that facilitates their second activity, cleavage of the DNA backbone. Here we review recent advances in understanding the chemical mechanism of monofunctional DNA glycosylases, with an emphasis on how the reactions are influenced by the properties of the nucleobase leaving-group, the moiety that varies across the vast range of substrates targeted by these enzymes.

Graphical abstract: Mechanisms for enzymatic cleavage of the N-glycosidic bond in DNA

Article information

Article type
Review Article
Submitted
22 May 2014
Accepted
14 Aug 2014
First published
15 Aug 2014

Org. Biomol. Chem., 2014,12, 8367-8378

Author version available

Mechanisms for enzymatic cleavage of the N-glycosidic bond in DNA

A. C. Drohat and A. Maiti, Org. Biomol. Chem., 2014, 12, 8367 DOI: 10.1039/C4OB01063A

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