We demonstrate herein that bifacial peptide nucleic acid (bPNA) hybrid triplexes functionally substitute for duplex DNA or RNA. Structure-function loss in three non-coding nucleic acids was inflicted by replacement of a duplex stem with unstructured oligo-T/U strands, which are bPNA binding sites. Functional rescue was observed on refolding of the oligo-T/U strands into bPNA triplex hybrid stems. Bifacial PNA binding was thus used to allosterically switch-on protein and small-molecule binding in DNA and RNA aptamers, as well as catalytic bond scission in a ribozyme. Duplex stems that support the catalytic site of a minimal type I hammerhead ribozyme were replaced with oligo-U loops, severely crippling or ablating the native RNA splicing function. Refolding of the U-loops into bPNA triplex stems completely restored splicing function in the hybrid system. These studies indicate that bPNA may have general utility as an allosteric trigger for a wide range of functions in non-coding nucleic acids.