Size-expanded analogues of dG and dC: synthesis and pairing properties in DNA

Abstract

We describe the completion of the set of four benzo-fused expanded DNA (xDNA) nucleoside analogues. We previously reported the development of benzo-fused analogues of dA and dT and their inclusion in an exceptionally stable new four-base genetic system, termed xDNA, in which the base pairs were expanded in size. Here we describe the preparation and properties of the second half of this nucleotide set: namely, the previously unknown dxC and dxG nucleosides. The dxC analogue was prepared from the previously reported dxT nucleoside in three steps and 57% yield. The large-sized deoxyguanosine analogue was prepared from an intermediate in the synthesis of dxA, yielding dxG in 14 steps overall (2.4%). Suitably protected versions of the deoxynucleosides were prepared for oligonucleotide synthesis following standard procedures, and they were readily incorporated into DNA by automated synthesizer. "Dangling-end" measurements revealed that the benzo-fused homologues stack considerably more strongly on neighboring DNA sequences than do their natural counterparts. Base pairing experiments with xC or xG bases showed that they pair selectively with their Watson-Crick partners, but with mild destabilization, due apparently to their larger size. Overall, the data suggest that the fluorescent xG and xC bases may be useful probes of steric effects in the study of biological nucleotide recognition mechanisms. In addition, the completion of the xDNA nucleoside set makes it possible in the future to construct full four-base xDNA strands that can target any sequence of natural DNA and RNA.