Gabrielle R Abraham, Aria S Chaderjian, Anna B N Nguyen, Sam Wilken, Omar A Saleh
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引用次数: 0
摘要
近年来,人们发现了生物分子液体在生命系统中的作用,同时也发现了精确合成和修饰核酸(NAs)的现代能力,这一切促使人们对核酸液相产生了浓厚的兴趣。这些液相主要由核酸在碱基配对相互作用的驱动下形成,或由带负电荷的核酸和带正电荷的分子的静电结合(共轭)形成。一般来说,使用序列工程化的 NA 可以调整微观粒子的特性,从而在生成的液体中注入特定的、可定制的行为。通过这种方式,研究人员利用 NA 液体解决了有限价软材料物理学中的基本问题,并创造出具有新结构和/或多功能特性的液体。在此,我们将对这一不断发展的领域进行回顾,讨论 NA 液体相分离的理论背景、对液体材料特性的定量理解,以及这些材料中广泛且不断增长的功能展示。最后,我们还将讨论该领域尚待解决的问题和面临的挑战。
The confluence of recent discoveries of the roles of biomolecular liquids in living systems and modern abilities to precisely synthesize and modify nucleic acids (NAs) has led to a surge of interest in liquid phases of NAs. These phases can be formed primarily from NAs, as driven by base-pairing interactions, or from the electrostatic combination (coacervation) of negatively charged NAs and positively charged molecules. Generally, the use of sequence-engineered NAs provides the means to tune microsopic particle properties, and thus imbue specific, customizable behaviors into the resulting liquids. In this way, researchers have used NA liquids to tackle fundamental problems in the physics of finite valence soft materials, and to create liquids with novel structured and/or multi-functional properties. Here, we review this growing field, discussing the theoretical background of NA liquid phase separation, quantitative understanding of liquid material properties, and the broad and growing array of functional demonstrations in these materials. We close with a few comments discussing remaining open questions and challenges in the field.
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