Brian D. Gildea

PNA beacons for duplex DNA.

We report here on the hybridization of peptide nucleic acid (PNA)-based molecular beacons (MB) directly to duplex DNA sites locally exposed by PNA openers. Two stemless PNA beacons were tested, both featuring the same recognition sequence and fluorophore-quencher pair (Fluorescein and DABCYL, respectively) but differing in arrangement of these groups and net electrostatic charge. It was found that one PNA beacon rapidly hybridized, with the aid of openers, to its complementary target within duplex DNA at ambient conditions via formation of a PD-like loop. In contrast, the other PNA beacon bound more slowly to preopened duplex DNA target and only at elevated temperatures, although it readily hybridized to single-stranded (ss) DNA target. Besides a higher selectivity of hybridization provided by site-specific PNA openers, we expect this approach to be very useful in those MB applications when denaturation of the duplex DNA analytes is unfavorable or undesirable. Furthermore, we show that PNA beacons are advantageous over DNA beacons for analyzing unpurified/nondeproteinized DNA samples. This feature of PNA beacons and our innovative hybridization strategy may find applications in emerging fluorescent DNA diagnostics.

PNA solubility enhancers

Abstract Fmoc-protected hydrophilic amino acids were prepared and incorporated into peptide nucleic acid (PNA). N- and C-terminal modification of PNA did not affect its ability to hybridize to complementary nucleic acid targets as determined by dot blot, PNA-FISH and Tm experiments. The compounds allowed us to prepare several probes which were previously impossible to make, purify or use due to limited aqueous solubility or self-aggregation.