Loop and Backbone Modifications of Peptide Nucleic Acid Improve G-Quadruplex Binding Selectivity

Targeting guanine (G) quadruplex structures is an exciting new strategy with potential for controlling gene expression and designing anticancer agents. Guanine-rich peptide nucleic acid (PNA) oligomers bind to homologous DNA and RNA to form hetero-G-quadruplexes but can also bind to complementary cy...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2009-12, Vol.131 (51), p.18415-18424
Main Authors: Lusvarghi, Sabrina, Murphy, Connor T, Roy, Subhadeep, Tanious, Farial A, Sacui, Iulia, Wilson, W. David, Ly, Danith H, Armitage, Bruce A
Format: Article
Language:English
Subjects:
Drug Design
G-Quadruplexes
Gene Expression Regulation
Nucleic Acid Conformation
Nucleic Acid Denaturation
Peptide Nucleic Acids - chemistry
Surface Plasmon Resonance
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Summary:Targeting guanine (G) quadruplex structures is an exciting new strategy with potential for controlling gene expression and designing anticancer agents. Guanine-rich peptide nucleic acid (PNA) oligomers bind to homologous DNA and RNA to form hetero-G-quadruplexes but can also bind to complementary cytosine-rich sequences to form heteroduplexes. In this study, we incorporated backbone modifications into G-rich PNAs to improve the selectivity for quadruplex versus duplex formation. Incorporation of abasic sites as well as chiral modifications to the backbone were found to be effective strategies for improving selectivity as shown by UV-melting and surface plasmon resonance measurements. The enhanced selectivity is due primarily to decreased affinity for complementary sequences, since binding to the homologous DNA to form PNA-DNA heteroquadruplexes retains high affinity. The improved selectivity of these PNAs is an important step toward using PNAs for regulating gene expression by G-quadruplex formation.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja907250j