Low-frequency Raman spectroscopy as a new tool for understanding the behaviour of ionisable compounds in dispersed mesophases.

IF 9.4 1区 化学 Q1 CHEMISTRY, PHYSICAL Journal of Colloid and Interface Science Pub Date : 2024-12-07 DOI:10.1016/j.jcis.2024.12.032
Lasse S Krog, Shinji Kihara, Pablo Mota-Santiago, Vito Foderà, Kārlis Bērziņš, Ben J Boyd
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Abstract

Hypothesis: Low-frequency Raman (LFR) spectroscopy is proposed as a novel non-destructive methodology to probe pH-related phase transitions in self-assembled lipid particles. In this case, dispersed lipid mesophases were composed of ionisable oleic acid (OA) or nicergoline (NG) in monoolein (MO). The sensitivity of LFR spectroscopy to low-energy intermolecular vibrations was hypothesised to be due to structural transformation in ionisable dispersed mesophases upon changes in pH.

Method/experiment: Phase transitions of dispersed mesophases of MO mixed with OA or NG were induced by varying the pH of the aqueous buffer. The structural transformations were studied using LFR spectroscopy, recording the corresponding changes in the vibrational density of states (VDOS) upon changes in pH and analysed using principal component analysis (PCA). The results were correlated with structural transitions observed in simultaneous small-angle X-ray scattering (SAXS) measurements.

Findings: The intensity of the VDOS signal of MO + OA mesophases scaled with phase-specific transformations, such as from the bi-continuous cubic Im3¯m phase (V2) or lamellar-based vesicles to the reversed hexagonal p6m phase (H2). For NG subtle changes in the lattice parameter of the V2 phase of NG + MO mesophases coincided with the apparent dissociation constant (pKaapp) of NG, however, slight variations between the pKaapp of NG determined by equilibrated samples analysed using SAXS and non-equilibrated samples analysed using LFR suggest structural hysteresis upon changes in the protonation state of NG. This approach offers an efficient method for studying the phase behaviour of lipid systems under varying pH and potentially other conditions such as temperature.

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低频拉曼光谱是了解分散介相中可电离化合物行为的新工具。
假设:建议将低频拉曼(LFR)光谱法作为一种新型的非破坏性方法,用于探测自组装脂质颗粒中与 pH 值相关的相变。在这种情况下,分散的脂质介相由可离子化的油酸(OA)或单烯烃(MO)中的烟碱(NG)组成。假设 LFR 光谱对低能分子间振动的敏感性是由于可电离分散介相在 pH 值变化时的结构转变所致:方法/实验:通过改变水缓冲液的 pH 值,诱导 MO 与 OA 或 NG 混合的分散介相发生相变。使用 LFR 光谱法研究结构转变,记录 pH 值变化时振动状态密度(VDOS)的相应变化,并使用主成分分析法(PCA)进行分析。研究结果与同时进行的小角 X 射线散射(SAXS)测量中观察到的结构转变相关联:研究结果:MO + OA 介相的 VDOS 信号强度随特定相的转变而变化,例如从双连续立方体 Im3¯m 相(V2)或片状囊泡到反向六方体 p6m 相(H2)。对于 NG 而言,NG + MO 介相 V2 相晶格参数的微妙变化与 NG 的表观解离常数(pKaapp)相吻合,然而,使用 SAXS 分析的平衡样品与使用 LFR 分析的非平衡样品所确定的 NG pKaapp 之间的微小差异表明,NG 质子态发生变化时会产生结构滞后。这种方法为研究不同 pH 值以及温度等其他潜在条件下脂质系统的相行为提供了一种有效的方法。
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来源期刊
CiteScore
16.10
自引率
7.10%
发文量
2568
审稿时长
2 months
期刊介绍: The Journal of Colloid and Interface Science publishes original research findings on the fundamental principles of colloid and interface science, as well as innovative applications in various fields. The criteria for publication include impact, quality, novelty, and originality. Emphasis: The journal emphasizes fundamental scientific innovation within the following categories: A.Colloidal Materials and Nanomaterials B.Soft Colloidal and Self-Assembly Systems C.Adsorption, Catalysis, and Electrochemistry D.Interfacial Processes, Capillarity, and Wetting E.Biomaterials and Nanomedicine F.Energy Conversion and Storage, and Environmental Technologies
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