Intercalating Nucleic Acids with Pyrene Nucleotide Analogues as Next-Nearest Neighbors for Excimer Fluorescence Detection of Single-Point Mutations under Nonstringent Hybridization Conditions

Fluorescence and hybridization specificity is reported for intercalating nucleic acids (INAs), which are here oligodeoxynucleotides (ODNs) synthesized with insertions using (S)-1-[bis(4-methoxyphenyl)(phenyl)methoxy]-3-[(pyren-1-yl)methoxy]propan-2-ol phosphoramidites. It is shown that an INA with two insertions placed as next-nearest neighbors can be used for discrimination between nucleic acids and their single-point mutants. Quenching of an excimer band at 480 nm is observed upon hybridizing to a complementary sequence, whereas the excimer band is present when the nucleobase pair between the two pyrene moieties is mismatched. It is the first example of a solution based on fluorescence detection of single-point mutants that uses excimer formation and does not rely on stringent hybridization conditions. Furthermore, it is shown that INAs with pyrene insertions retain their sequence specificity in thermal melting.