Peptide nucleic acid: a versatile tool in genetic diagnostics and molecular biology

Abstract

During the past ten years, the DNA mimic peptide nucleic acid has inspired the development of a variety of hybridisation-based methods for detection, quantification, purification and characterisation of nucleic acids. Most of these methods have taken advantage of the very favourable DNA and RNA hybridisation properties of peptide nucleic acids combined with the unique properties and opportunities offered by peptide chemistry. Within the past year, significant progress in in situ hybridisation technology has been achieved, which has resulted, in particular, in reliable and sensitive methods for detection of bacteria in clinical samples, as well as in environmental samples. Furthermore, applications of the polymerase chain reaction clamping method have been expanded, and novel ways of exploiting complexes of peptide nucleic acids with double-stranded DNA, such as double duplex invasion complexes and PD loops, have been developed.