Divergent solid-phase synthesis of nucleic acid dendrimers

Peptide nucleic acids (PNA) were synthesized by a modified Merrifield method using several improvements. Activation by O-[benzotriazol-1-yl]-1,1,3,3-tetramethyluronium hexafluorophosphate in combination with in situ neutralization of the resin allowed efficient coupling of all four Boc-protected PNA

Dendrimers are highly ordered, hyperbranched polymers with potential for a whole range of chemical applications. Solution-phase synthesis of dendrimers is often challenging, requiring long reaction times and nontrivial purification; solid-phase methodology, on the other hand, enables reactions to be

Boc/'Z-protected PNA oligomers were synthesised on solid phase. The use of the allylic HYCRON resin allowed for the application of both Boc-and Fmoc-protecting groups. Highest yields were obtained when the monomeric building block was synthesised on solid phase rather than loaded as preformed unit.

The first solid-phase synthesis of novel peptide-derived enantiospecific nucleic acid analogs (PDNAs), employing all three stereoisomers of 4-(N 9 -adeninyl)-2-amino(t-boc)-butyric acid as ADNA (amino acid-derived nucleoside analogs) monomers has been described. The preliminary melting temperature (