A Versatile DNA Nanochip for Direct Analysis of DNA Base‐Excision Repair

Abstract

Direct observation of enzymes interacting with DNA should be one of the ultimate technologies for investigating the mechanical behavior of the enzymes during the reactions. Atomic force microscopy (AFM) enables observation of biomolecules at a nanoscale spatial resolution; however, for a stable analysis, a scaffold to observe the reaction should be explored. DNA origami has recently been developed for the construction of a wide variety of multidimensional nanostructures, which can be used as scaffolds to incorporate various functionalities at specific positions. We intended to construct an AFM-based analysis system for DNA repair using a DNA origami scaffold carrying various substrate double-stranded DNAs (dsDNA). We employed DNA baseexcision repair (BER) enzymes 8-oxoguanine glycosylase (hOgg1) and T4 pyrimidine dimer glycosylase (PDG) to analyze the reaction on the DNA scaffold (Figure 1a). In the repair process, hOgg1 removes 8-oxoguanine (oxoG) to prevent G:C!T:A transversion during replication by DNA glycosylase activity and endonuclease activity for apurine– apyrimidine (AP) sites (AP-lyase activity) (Figure 1a). PDG removes photodamaged pyrimidine dimer including cis–syn cyclobutane thymine dimer (T T) by DNA glycosylase/AP-lyase activity. BER enzymes often require structural changes of the target DNA strands, such as DNA bending, for the reaction to proceed. The enzyme hOgg1 bends double-helix DNA by about 708 with flipping out of the oxoG for procession of the excision. The enzyme PDG bends double-helix DNA by 608 with flipping out of the 3’-side of A in the opposite strand of T T. The glycosylase/AP-lyase activity of these enzymes leads to single-strand scission at the damaged nucleotide (Figure 1b). In addition, the reaction intermediates of both reactions form a covalent bond with the enzyme by reduction with NaBH4. [5,10] We recently developed a framelike DNA origami scaffold to incorporate two different substrate dsDNAs. If the above-mentioned enzymatic and chemical reactions