Unveiling the Liquid-Liquid Phase Separation of Benzene-1,3,5-Tricarboxamide in Water

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY
Mohit Kumar, Job. N. S. Hanssen, Prof. Dr. Shikha Dhiman
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引用次数: 0

Abstract

The intricate interplay between self-assembly and phase separation orchestrates biomolecular organization inside cells, thereby dictating the formation of vital structures such as protein assemblies and membraneless organelles (MLOs). However, in the context of supramolecular polymerization, these fundamental processes have traditionally been studied separately. This study reevaluates the supramolecular polymerization process to unveil the presence of phase-separated droplet state. Utilizing the well-studied benzene-1,3,5-tricarboxamide (BTA) supramolecular motif, we explore its thermally driven liquid-liquid phase separation (LLPS). Thermodynamic and kinetic analysis, employing temperature-dependent spectroscopic and microscopic techniques, elucidates the distinct BTA states and their evolution towards the thermodynamic fiber state. This research sheds light on the existence of hidden phases of supramolecular monomers, emphasizing the delicate balance of non-covalent interactions among monomers and with solvents in governing self-assembly vs. phase separation. This is particularly important in comprehending phase separation in the biological realm such as in MLOs, and for applications such as condensate-modifying therapeutics.

Abstract Image

揭示水中苯-1,3,5-三甲酰胺的液-液相分离过程
自组装和相分离之间错综复杂的相互作用协调了细胞内的生物分子组织,从而决定了蛋白质组装和无膜细胞器(MLO)等重要结构的形成。然而,在超分子聚合的背景下,这些基本过程历来被分开研究。本研究重新评估了超分子聚合过程,揭示了相分离液滴状态的存在。利用研究得比较透彻的苯-1,3,5-三甲酰胺(BTA)超分子主题,我们探讨了其热驱动的液-液相分离(LLPS)。热力学和动力学分析采用与温度相关的光谱和显微技术,阐明了不同的 BTA 状态及其向热力学纤维状态的演变。这项研究揭示了超分子单体隐藏相的存在,强调了单体之间以及单体与溶剂之间非共价相互作用在管理自组装与相分离方面的微妙平衡。这对于理解生物领域(如 MLOs)的相分离以及冷凝修饰疗法等应用尤为重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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