Abstract
The telomeric DNA oligonucleotide 5′-G4T2G4-3′ (Tet 1.5) spontaneously assembles into large superstructures we have termed G-wires. G-wires can be resolved by gel electrophoresis as a ladder pattern. The self-association of Tet 1.5 is noncovalent and exhibits characteristics of G4-DNA, a parallel four-stranded structure stabilized by guanine tetrads. Formation of G-wires is dependent upon the presence of Na+ and/or K+, and once formed, G-wires are resistant to denaturation. The results described here extend our understanding of the structural potential of G-rich nucleic acids and may provide insight into the possible roles of G-rich sequences and the novel structures they can form in biological systems. © 1994, American Chemical Society. All rights reserved.
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CITATION STYLE
Marsh, T. C., & Henderson, E. (1994). G-Wires: Self-Assembly of a Telomeric Oligonucleotide, d(GGGGTTGGGG), into Large Superstructures. Biochemistry, 33(35), 10718–10724. https://doi.org/10.1021/bi00201a020
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