Liquid Crystal Ordering and Isotropic Gelation in Solutions of Four-Base-Long DNA Oligomers

Liquid crystal ordering is reported in aqueous solutions of the oligomer 5′-ATTAp-3′ and of the oligomer 5′-GCCGp-3′. In both systems, we quantitatively interpret ordering as stemming from the chaining of molecules via a “running-bond” type of pairing, a self-assembly process distinct from the duple...

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Veröffentlicht in:	ACS nano 2016-09, Vol.10 (9), p.8508-8516
Hauptverfasser:	Fraccia, Tommaso P, Smith, Gregory P, Bethge, Lucas, Zanchetta, Giuliano, Nava, Giovanni, Klussmann, Sven, Clark, Noel A, Bellini, Tommaso
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Sprache:	eng
Schlagworte:	DNA - chemistry Liquid Crystals Molecular Structure Oligonucleotides
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description	Liquid crystal ordering is reported in aqueous solutions of the oligomer 5′-ATTAp-3′ and of the oligomer 5′-GCCGp-3′. In both systems, we quantitatively interpret ordering as stemming from the chaining of molecules via a “running-bond” type of pairing, a self-assembly process distinct from the duplex aggregation previously reported for longer oligonucleotides. While concentrated solutions of 5′-ATTAp-3′ show only a columnar liquid crystal phase, solutions of 5′-GCCGp-3′ display a rich phase diagram, featuring a chiral nematic phase analogous to those observed in solutions of longer oligonucleotides and two unconventional phases, a columnar crystal and, at high concentration, an isotropic amorphous gel. The appearance of these phases, which can be interpreted on the basis of features of 5′-GCCGp-3′molecular structure, suggests distinctive assembly motifs specific to ultrashort oligonucleotides.
doi_str_mv	10.1021/acsnano.6b03622
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subjects	DNA - chemistry Liquid Crystals Molecular Structure Oligonucleotides
title	Liquid Crystal Ordering and Isotropic Gelation in Solutions of Four-Base-Long DNA Oligomers
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