Abstract
Aromatic peptide nucleic acid analogs having an N-(2-aminobenzyl)glycine backbone (APNA 1 ) were previously identified as promising new leads for the design of polyaromatic DNA mimics. Structural modifications of 1 , which lock the aromatic backbone into a unique conformation, while maintaining the same space distribution between the nucleobases as in 1 , were investigated. The electrostatic potential of the aromatic backbone was also modified in an attempt to improve the solubility of these compounds in aqueous media and to evaluate how the quadrapole of the aromatic backbone may influence the biophysical properties of the APNA oligomers. PNA hexamers containing a single monomer insert of each new APNA monomer were used to explore the hybridization properties of these analogs with poly rA and poly dA. Preliminary results indicated that these modifications do not seriously alter the molecular recognition properties of APNAs towards DNA and RNA.
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