Dual pyrene-labeled pyrrolidinyl peptide nucleic acid as an excimer-to-monomer switching probe for DNA sequence detection

The unique ability of pyrene to form excimers with distinct emission characteristic from monomer offers an attractive means to signal the interactions between biomolecules. In this work, dual pyrene-labeled pyrrolidinyl peptide nucleic acid probe with a d-prolyl-2-aminocyclopetanecarboxylic acid α,β-dipeptide backbone (acpcPNA) was designed as an excimer-to-monomer switching probe for DNA sequence detection. In single stranded state, the excimer emission at 470 nm was mainly observed in the fluorescence spectrum. In the presence of DNA target, the hybridization resulted in separation of the two pyrene units, therefore the spectrum displayed increased monomer emission at 380 nm with concomitant decreased excimer emission. Switching ratio, which is defined as the ratio of the monomer to excimer in the double stranded form [F380/F470(ds)] divided by the same value obtained from the single stranded form [F380/F470(ss)], was used to describe the performance of the probes. Switching ratios in the range of 5–30 were observed with various dual pyrene-labeled acpcPNA probes bearing pyrenebutyryl label attached five-base apart. Practically no excimer-to-monomer switching behavior was observed with DNA targets carrying a single mismatched base as shown by the small switching ratios of ∼1.