Smectic ordering in aqueous solutions of monodisperse stiff double-stranded DNA fragments is known not to occur, despite the fact that these systems exhibit both chiral nematic and columnar mesophases. Here, we show, unambiguously, that a smectic-A type of phase is formed by increasing the DNA's flexibility through the introduction of an unpaired single-stranded DNA spacer in the middle of each duplex. This is unusual for a lyotropic system, where flexibility typically destabilizes the smectic phase. We also report on simulations suggesting that the gapped duplexes (resembling chain-sticks) attain a folded conformation in the smectic layers, and argue that this layer structure, which we designate as smectic-fA phase, is thermodynamically stabilized by both entropic and energetic contributions to the system's free energy. Our results demonstrate that DNA as a building block offers an exquisitely tunable means to engineer a potentially rich assortment of lyotropic liquid crystals. © The Author(s) 2016.
Smectic phase in suspensions of gapped DNA duplexes / Salamonczyk, M.; Zhang, Jing; Portale, Giuseppe; Zhu, C.; Kentzinger, E.; Gleeson, J. T.; Jakli, A.; DE MICHELE, Cristiano; Dhont, J. K. G.; Sprunt, S.; Stiakakis, E.. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - STAMPA. - 7:(2016), pp. 1-9. [10.1038/ncomms13358]
Smectic phase in suspensions of gapped DNA duplexes
ZHANG, JING;PORTALE, GIUSEPPE;DE MICHELE, CRISTIANO;
2016
Abstract
Smectic ordering in aqueous solutions of monodisperse stiff double-stranded DNA fragments is known not to occur, despite the fact that these systems exhibit both chiral nematic and columnar mesophases. Here, we show, unambiguously, that a smectic-A type of phase is formed by increasing the DNA's flexibility through the introduction of an unpaired single-stranded DNA spacer in the middle of each duplex. This is unusual for a lyotropic system, where flexibility typically destabilizes the smectic phase. We also report on simulations suggesting that the gapped duplexes (resembling chain-sticks) attain a folded conformation in the smectic layers, and argue that this layer structure, which we designate as smectic-fA phase, is thermodynamically stabilized by both entropic and energetic contributions to the system's free energy. Our results demonstrate that DNA as a building block offers an exquisitely tunable means to engineer a potentially rich assortment of lyotropic liquid crystals. © The Author(s) 2016.| File | Dimensione | Formato | |
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