Flexibility of C 3h ‐Symmetrical Linkers in Tris‐oligonucleotide‐Based Tetrahedral Scaffolds

Flexibility of tris‐oligonucleotides is determined by the length of their connecting hydrocarbon chains. Tris‐oligonucleotides are branched DNA building blocks with three oligonucleotide arms attached to a C 3 h ‐symmetrical linker core at these chains. Four tris‐oligonucleotides hybridise into a te...

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Veröffentlicht in:Chembiochem : a European journal of chemical biology 2016-02, Vol.17 (3), p.254-259
Hauptverfasser: Panagiotidis, Christos, Kath‐Schorr, Stephanie, von Kiedrowski, Günter
Format: Artikel
Sprache:eng
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Zusammenfassung:Flexibility of tris‐oligonucleotides is determined by the length of their connecting hydrocarbon chains. Tris‐oligonucleotides are branched DNA building blocks with three oligonucleotide arms attached to a C 3 h ‐symmetrical linker core at these chains. Four tris‐oligonucleotides hybridise into a tetrahedral nanocage by sequence‐determined self‐assembly. The influence of methylene, ethylene and propylene chains was studied by synthesising sets of tris‐oligonucleotides and analysing the relative stability of the hybridisation products against digestion by mung bean nuclease by using gel electrophoresis. Linkers with ethylene chains showed sufficient flexibility, whereas methylene‐chain linkers were too rigid. Tris‐oligonucleotides based on the latter still formed tetrahedral scaffolds in intermixing experiments with linkers of higher flexibility. Thus, a new generation of versatile isocyanurate‐based linkers was established.
ISSN:1439-4227
1439-7633
DOI:10.1002/cbic.201500436