Synthesis of C-Nucleosides Designed To Participate in Triplex Formation with Native DNA: Specific Recognition of an A:T Base Pair in DNA

We have previously described a system of 2-aminoquinoline- and 2-aminoquinazoline-based C-deoxynucleosides (TRIPsides) that are designed to be incorporated into oligomers that can specifically bind in the major groove via Hoogsteen base pairing to any sequence of native DNA. The four TRIPsides are termed antiGC, antiCG, antiTA, and antiAT with respect to the Watson−Crick base pair targets that they bind. The first three TRIPsides have been prepared, characterized, and shown to form stable and sequence-specific triplexes. In the present study, we describe the preparation of two molecules, 2-amino-4-(2‘-deoxy-β-d-ribofuranosyl)quinazoline (7) and 2-amino-6-fluoro-4-(2‘-deoxy-β-d-ribofuranosyl)quinoline (14), that can serve as the remaining antiAT TRIPside. The phosphoramidites of 7 and 14 were prepared, but only the latter was successfully incorporated into DNA oligomers. It is demonstrated using UV−visible melting experiments that 14 forms sequence-specific intramolecular triplets with A:T base pairs at ph...