Influence of Side-Chain Molecular Features on Aqueous Coacervation of Multifunctional Homopolypeptides.

Polymer science & technology (Washington, D.C.) Pub Date : 2024-10-23 eCollection Date: 2025-03-25 DOI:10.1021/polymscitech.4c00003

Wendell A Scott, Isaac Benavides, Timothy J Deming

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Abstract

Three different series of amino acid side-chain functionalized homopolypeptides were prepared as variants of previously reported α-helical, coacervate-forming cationic polypeptides. Studies of the physical behavior of these polypeptides in aqueous media in the presence of multivalent counterions enabled a better understanding of the molecular requirements for coacervate formation of side-chain functionalized homopolypeptides. Variation in lengths of side-chain amino acid or linker segments in cationic α-helical polypeptides was found either to prohibit coacervate formation or to allow adjustment of the phase transition temperature. A series of charge-reversed, anionic amino acid side-chain functionalized homopolypeptides were also prepared and found to be α-helical and able to form coacervates similar to analogous cationic homopolypeptides. These results illustrate the ability to predictably tune coacervation properties via molecular adjustment of side-chains in homopolypeptides and show that amino acid side-chain functionalized homopolypeptides can be used as a general platform for development of biomimetic, coacervate-forming polymers.

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侧链分子特征对多功能均多肽水溶液凝聚的影响。

制备了三种不同系列的氨基酸侧链功能化均多肽，作为先前报道的α-螺旋，凝聚形成阳离子多肽的变体。研究这些多肽在水介质中多价反离子存在下的物理行为，可以更好地理解侧链功能化均多肽凝聚形成的分子要求。研究发现，阳离子α-螺旋多肽侧链氨基酸或连接体片段长度的变化既可以阻止凝聚形成，也可以调节相变温度。我们还制备了一系列电荷反向、阴离子氨基酸侧链功能化的均多肽，发现它们是α-螺旋状的，能够形成类似于类似阳离子均多肽的凝聚体。这些结果表明，通过对均多肽侧链的分子调节，可以预测地调节均多肽的凝聚特性，并表明氨基酸侧链功能化的均多肽可以作为开发仿生、凝聚形成聚合物的一般平台。

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Polymer science & technology (Washington, D.C.)

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