通过可逆聚合实现手性的分层传播：DNA寡聚物的胆甾相

Hierarchical Propagation of Chirality through Reversible Polymerization: The Cholesteric Phase of DNA Oligomers.

作者信息

De Michele Cristiano, Zanchetta Giuliano, Bellini Tommaso, Frezza Elisa, Ferrarini Alberta

机构信息

Dipartimento di Fisica, "Sapienza" Università di Roma, P.le A. Moro 2, 00185 Roma, Italy.

Dipartimento di Biotecnologie Mediche e Medicina Traslazionale, Università di Milano, via F.lli Cervi 93, Segrate (MI), Italy.

出版信息

ACS Macro Lett. 2016 Feb 16;5(2):208-212. doi: 10.1021/acsmacrolett.5b00579. Epub 2016 Jan 20.

DOI:10.1021/acsmacrolett.5b00579

PMID:35614680

Abstract

Unveiling the subtle rules that control the buildup of macroscopic chirality starting from chiral molecular elements is a challenge for theory and computations. In this context, a remarkable phenomenon is the formation of helically twisted nematic (cholesteric) phases, with pitch in the micrometer range, driven by self-assembly of relatively small chiral species into supramolecular semiflexible polymers. We have developed a theoretical framework to connect the cholesteric organization to the shape and chirality of the constituents, described with molecular detail, in this kind of system. The theory has been tested against new accurate measurements for solutions of short DNA duplexes. We show that the cholesteric organization is determined by steric repulsion between duplexes, and we identify distinctive features of linear self-assembly in the temperature and concentration dependence of the pitch.

摘要

从手性分子元素出发，揭示控制宏观手性形成的微妙规则，这对理论和计算来说是一项挑战。在这种情况下，一个显著的现象是形成了螺旋扭曲向列相（胆甾相），其螺距在微米范围内，这是由相对较小的手性物种自组装成超分子半柔性聚合物驱动的。我们已经开发出一个理论框架，将胆甾相组织与此类系统中详细描述的组分的形状和手性联系起来。该理论已针对短DNA双链体溶液的新的精确测量进行了测试。我们表明，胆甾相组织由双链体之间的空间排斥决定，并且我们在螺距的温度和浓度依赖性中确定了线性自组装的独特特征。

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通过可逆聚合实现手性的分层传播：DNA寡聚物的胆甾相

Hierarchical Propagation of Chirality through Reversible Polymerization: The Cholesteric Phase of DNA Oligomers.

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