Glass Science of Glycolipids

Pub Date : 2023-01-25 DOI:10.4052/tigg.2121.1e

Shigesaburo Ogawa

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引用次数: 1

Abstract

Glass transition is a phenomenon in which an amorphous phase undergoes an abrupt change in its thermodynamic properties at a certain temperature referred to as that material’s glass transition temperature (Tg). Recently, studies have been conducted on the glass transition of glycolipids, including carbohydrate-based surfactants, which have covalently linked sugar and hydrocarbon moieties. These are reported to form various phases such as the glassy lamellar gel (Lβ) phases, glassy thermotropic liquid crystal (LC) phases like the fluid lamellar (Lα), hexagonal columnar (Colh) and cubic LC phases, and glassy lyotropic LC phases such as Lα and cubic LC phases. In addition, the relationships between the structure of glycolipids, their LC phases, and Tg have been reported. Furthermore, the phase transition between Lα and Lβ phases in the glassy state and the relaxation behavior of structural and thermodynamic parameters at glass transition have been investigated. These results reveal the universality of the glass transition phenomenon, as well as some properties specific to the glass transition of glycolipids. Several promising applications have been proposed for pharmaceutical fields. Future research is expected to shed light on the glass transition of glycolipids and glycans in biomembranes and their contribution to the expression of functions.

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糖脂玻璃科学

玻璃化转变是一种非晶相在一定温度下热力学性质发生突变的现象，称为该材料的玻璃化转变温度(Tg)。近年来，人们对糖脂的玻璃化转变进行了研究，包括碳水化合物基表面活性剂，它们具有共价连接糖和碳氢化合物的部分。据报道，这些相形成了各种相，如玻璃状层状凝胶(Lβ)相，玻璃状热致液晶(LC)相，如流体层状(Lα)，六方柱状(Colh)和立方LC相，玻璃状溶致LC相，如Lα和立方LC相。此外，还报道了糖脂结构及其LC相与Tg之间的关系。此外，还研究了玻璃态下Lα和Lβ相之间的相变以及玻璃态下结构和热力学参数的弛豫行为。这些结果揭示了糖脂玻璃化转变现象的普遍性，以及糖脂玻璃化转变特有的一些性质。在制药领域提出了几种有前景的应用。未来的研究有望揭示糖脂和聚糖在生物膜中的玻璃化转变及其对功能表达的贡献。

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