Publikation: An adamantane-based building block for DNA networks
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2011
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Chemistry - An Asian Journal. 2011, 6(6), pp. 1450-1455. ISSN 1861-4728. eISSN 1861-471X. Available under: doi: 10.1002/asia.201000887
Zusammenfassung
DNA governs the storage and transfer of genetic information through generations in all living systems with the exception of some viruses. Its physicochemical nature and the Watson–Crick base pairing properties allow molecular constructions at nanometer length, thereby enabling the design of desired structural motifs, which can self-assemble to form large supramolecular arrays and scaffolds. The tailor-made DNAs have been an interesting material for such designed nanoscale constructions. However, the synthesis of specific structures with a desired molecular function is still in its infancy and therefore has to be further explored. To add a new dimension to this approach, we have synthesized a rigid three-way branched adamantane motif, which is capable of forming highly stable DNA networks. The moiety generated could serve as a useful building block for DNA-based nanoconstructions.
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PATHAK, Richa, Andreas MARX, 2011. An adamantane-based building block for DNA networks. In: Chemistry - An Asian Journal. 2011, 6(6), pp. 1450-1455. ISSN 1861-4728. eISSN 1861-471X. Available under: doi: 10.1002/asia.201000887BibTex
@article{Pathak2011-06-06adama-13987,
year={2011},
doi={10.1002/asia.201000887},
title={An adamantane-based building block for DNA networks},
number={6},
volume={6},
issn={1861-4728},
journal={Chemistry - An Asian Journal},
pages={1450--1455},
author={Pathak, Richa and Marx, Andreas}
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<dcterms:abstract xml:lang="eng">DNA governs the storage and transfer of genetic information through generations in all living systems with the exception of some viruses. Its physicochemical nature and the Watson–Crick base pairing properties allow molecular constructions at nanometer length, thereby enabling the design of desired structural motifs, which can self-assemble to form large supramolecular arrays and scaffolds. The tailor-made DNAs have been an interesting material for such designed nanoscale constructions. However, the synthesis of specific structures with a desired molecular function is still in its infancy and therefore has to be further explored. To add a new dimension to this approach, we have synthesized a rigid three-way branched adamantane motif, which is capable of forming highly stable DNA networks. The moiety generated could serve as a useful building block for DNA-based nanoconstructions.</dcterms:abstract>
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