Triplex-forming peptide nucleic acids as emerging ligands to modulate structure and function of complex RNAs

Over the last three decades, our view of RNA has changed from a simple intermediate supporting protein synthesis to a major regulator of biological processes. In the expanding area of RNA research, peptide nucleic acid (PNA) is emerging as a promising ligand for triple-helical recognition of complex...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2024-02, Vol.6 (15), p.1999-28
Hauptverfasser: Katkevics, Martins, MacKay, James A, Rozners, Eriks
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Sprache:eng
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Zusammenfassung:Over the last three decades, our view of RNA has changed from a simple intermediate supporting protein synthesis to a major regulator of biological processes. In the expanding area of RNA research, peptide nucleic acid (PNA) is emerging as a promising ligand for triple-helical recognition of complex RNAs. As discussed in this feature article, the key advantages of PNAs are high sequence specificity and affinity for RNA (>10 fold higher than for DNA) that are difficult to achieve with small molecule ligands. Emerging studies demonstrate that triple-helical binding of PNAs can modulate biological function and control dynamic conformational equilibria of complex folded RNAs. These results suggest that PNA has a unique potential as a research tool and therapeutic compound targeting RNA. The remaining problems hampering advances in these directions are limitations of sequences that can be recognized by Hoogsteen triplexes (typically purine rich tracts), poor cellular uptake and bioavailability of PNA, and potential off-target effects in biological systems. Recent exciting studies are discussed that illustrate how synthetic nucleic acid chemistry provides innovative solutions for these problems. Over the last three decades, triplex-forming PNAs have emerged as ligands for the recognition of double-stranded RNA. Strong and sequence selective binding using synthetic nucleobases offers opportunity for modulation of biological function of endogenous RNA transcripts.
ISSN:1359-7345
1364-548X
DOI:10.1039/d3cc05409h