Peptide nucleic acid as a template for Taq DNA polymerase

Abstract

Peptide nucleic acid (PNA), an artificial DNA analog, comprises a purine or pyrimidine base and a pseudo-peptide backbone instead of deoxyribose-phosphate. PNA has been found to have stronger adhesion and higher stability in binding to its complementary DNA than deoxyribose-phosphate. Thus, it could serve as an agent for gene modulation, demonstrating potential in antisense therapy, molecular diagnostics, and nanotechnology. However, the applications of PNA remain limited because its biological activities are not fully known. Here, I demonstrate that a thermostable DNA polymerase, Thermus aquaticus (Taq) polymerase, exhibits transcriptase activity when a PNA oligomer is used as a template and that genetic information of the oligomer can be amplified by PCR using DNA primers. Furthermore, the insertion of a glutamine peptide stretch in the middle part of the PNA template did not interfere with transcription; it was transcribed into a guanosine or adenosine stretch. Intriguingly, this amino acid-to-DNA transcription did not occur when glycine residues were inserted. A synthetic PNA oligomer can, therefore, function as a template for a DNA polymerase, and polyglutamine peptides can be transcribed into guanosine or adenosine. These findings provide a cornerstone to reveal all amino acid genetic codes and transcription activity in the future.