1. Academic Validation
  2. Synthesis and structure of duplex DNA containing the genotoxic nucleobase lesion N7-methylguanine

Synthesis and structure of duplex DNA containing the genotoxic nucleobase lesion N7-methylguanine

  • J Am Chem Soc. 2008 Sep 3;130(35):11570-1. doi: 10.1021/ja8025328.
Seongmin Lee 1 Brian R Bowman Yoshihito Ueno Shuyu Wang Gregory L Verdine
Affiliations

Affiliation

  • 1 Department of Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts 02138, USA.
Abstract

The predominant product of aberrant DNA methylation is the genotoxic lesion N7-methyl-2'-deoxyguanosine (m7dG). M7dG is recognized and excised by lesion-specific DNA glycosylases, namely AlkA in E. coli and Aag in humans. Structural studies of m7dG recognition and catalysis by these Enzymes have been hampered due to a lack of efficient means by which to incorporate the chemically labile m7dG moiety site-specifically into DNA on a preparative scale. Here we report a solution to this problem. We stabilized the lesion toward acid-catalyzed and glycosylase-catalyzed depurination by 2'-fluorination and toward base-catalyzed degradation using mild, nonaqueous conditions in the DNA deprotection reaction. Duplex DNA containing 2'-fluoro-m7dG (Fm7dG) cocrystallized with AlkA as a host-guest complex in which the lesion-containing segment of DNA was nearly devoid of protein contacts, thus enabling the first direct visualization of the N7-methylguanine lesion nucleobase in DNA. The structure reveals that the base-pairing mode of Fm7dG:C is nearly identical to that of G:C, and Fm7dG does not induce any apparent structural disturbance of the duplex structure. These observations suggest that AlkA and Aag must perform a structurally invasive interrogation of DNA in order to detect the presence of intrahelical m7dG lesions.

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