Metal-Mediated DNA Nanotechnology in 3D: Structural Library by Templated Diffraction

DNA double helices containing metal-mediated DNA (mmDNA) base pairs have been constructed from Ag and Hg ions between pyrimidine:pyrimidine pairs with the promise of nanoelectronics. Rational design of mmDNA nanomaterials has been impractical without a complete lexical and structural description. He...

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Veröffentlicht in:Advanced materials (Weinheim) 2023-03, Vol.35 (29), p.e2201938-e2201938
Hauptverfasser: Vecchioni, Simon, Lu, Brandon, Livernois, William, Ohayon, Yoel P, Yoder, Jesse B, Yang, Chu-Fan, Woloszyn, Karol, Bernfeld, William, Anantram, M P, Canary, James W, Hendrickson, Wayne A, Rothschild, Lynn J, Mao, Chengde, Wind, Shalom J, Seeman, Nadrian C, Sha, Ruojie
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Sprache:eng
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Zusammenfassung:DNA double helices containing metal-mediated DNA (mmDNA) base pairs have been constructed from Ag and Hg ions between pyrimidine:pyrimidine pairs with the promise of nanoelectronics. Rational design of mmDNA nanomaterials has been impractical without a complete lexical and structural description. Here, we explore the programmability of structural DNA nanotechnology toward its founding mission of self-assembling a diffraction platform for biomolecular structure determination. We employed the tensegrity triangle to build a comprehensive structural library of mmDNA pairs via X-ray diffraction and elucidated generalized design rules for mmDNA construction. We uncovered two binding modes: N3-dominant, centrosymmetric pairs and major groove binders driven by 5-position ring modifications. Energy gap calculations showed additional levels in the lowest unoccupied molecular orbitals (LUMO) of mmDNA structures, rendering them attractive molecular electronic candidates. This article is protected by copyright. All rights reserved.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.202201938