Issue 3, 2009

Metal-mediated base pairing within the simplified nucleic acid GNA

Abstract

Hydroxypyridone and pyridopurine homo- and hetero-base pairs have been investigated in the context of duplex GNA (glycol nucleic acid). Phosphoramidites for automated GNA solid phase synthesis were synthesized economically in a few steps starting from commercially available enantiopure glycidol. Similar to their behavior in DNA, the hydroxypyridone and pyridopurine homo-base pairs display a metal-dependent base pairing, with the hydroxypyridone base pair exhibiting a preference for copper(II) ions and the pyridopurine a preference for nickel(II) ions. However, these metallo-base pairs show modulated properties in GNA with respect to metal-dependent pairing stabilities and metal selectivities. Most interestingly, the hydroxypyridone homo-base pair and hydroxypyridone-pyridopurine hetero-base pair are particularly well accommodated in the GNA duplex and form copper(II)-dependent base pairs that are more stable compared to a Watson-Crick A:T base pair at the same position by nearly 20 °C and 24 °C, respectively. The structure of the copper(II)-hydroxypyridone homo-base pair is discussed based on a recent metallo-GNA duplex crystal structure.

Graphical abstract: Metal-mediated base pairing within the simplified nucleic acid GNA

Supplementary files

Article information

Article type
Paper
Submitted
17 Sep 2008
Accepted
24 Oct 2008
First published
01 Dec 2008

Org. Biomol. Chem., 2009,7, 476-482

Metal-mediated base pairing within the simplified nucleic acid GNA

M. K. Schlegel, L. Zhang, N. Pagano and E. Meggers, Org. Biomol. Chem., 2009, 7, 476 DOI: 10.1039/B816142A

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