DNA and RNA binding properties of an arginine-based 'Extended Chiral Box' Peptide Nucleic Acid

Lys-based 'chiral box' Peptide Nucleic Acids (PNAs with three adjacent 2D-Lys-based chiral monomers) have shown unsurpassed specificity in DNA recognition. In this Letter, the binding performances of arginine-based chiral PNAs were evaluated for PNAs containing in the middle part of the strand either a 2D,5L-Arg monomer or three adjacent 2D-; 2D,5L-; 5L-Arg monomers ('Extended Chiral Box'), a combination never studied before. The binding performances of the PNAs were studied by evaluating the melting temperatures of fullmatch and mismatch PNA-DNA and PNA-RNA hybrids and by studying their structure by circular dichroism (CD). The data indicated that the arginine side chains inserted in the PNA structure are perfectly equivalent to lysine side chains as far as oligonucleotide recognition is concerned. The insertion of an 'Extended Chiral Box' into PNA differently influences the binding properties to DNA and RNA: the additional side chains had no observable effect on binding affinity and selectivity toward DNA, whereas, seemed to slightly disturb the binding affinity to RNA but at the same time highly enhancing the recognition selectivity.