比较植物饮料和牛乳在消化过程中的脂质自组装行为和脂肪酸组成

IF 5.4 2区 医学 Q2 MATERIALS SCIENCE, BIOMATERIALS
Peter Meiland, Anas Aljabbari, Shinji Kihara, Kārlis Bērziņš, Ulf Andersen, Jacob J.K. Kirkensgaard, Ben J. Boyd
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引用次数: 0

摘要

在本研究中,静态体外消化模型与同步辐射小角 X 射线散射(SAXS)相结合,比较了植物饮料和牛乳在消化过程中的脂质自组装行为。衍射图谱与消化过程中脂肪酸(FA)组成的主成分分析(PCA)相结合。结果发现,半数植物饮料形成了反胶束立方相,这与牛乳在消化过程中测定的反六边形和双连续立方相有很大不同。根据 PCA 推断,植物饮料的脂肪酸组成相似,只是油酸和亚油酸的比例略有不同。植物饮料中的多不饱和长链脂肪酸形成反胶束结构,这与临界堆积参数理论相一致。这些发现加深了人们对植物饮料行为的了解,有助于进一步开发新的和现有的植物乳制品替代产品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparing the lipid self-assembly behaviour and fatty acid composition of plant-based drinks to bovine milk during digestion
In this study, a static in-vitro digestion model was coupled with synchrotron small-angle X-ray scattering (SAXS) to compare the lipid self-assembly behaviour of plant-based drinks and bovine milk during digestion. The diffraction profiles were combined with principal component analysis (PCA) of the fatty acid (FA) composition during digestion. Half of the plant-based drinks were found to form an inverse micellar cubic phase which is substantially different from the inverse hexagonal and bicontinuous cubic phases determined in bovine milk during digestion. The PCA inferred that the plant-based drinks all had similar FA compositions with slight changes in oleic and linoleic acid ratios. The polyunsaturated long-chain fatty acids of the plant-based drinks forming inverse micellar structures are in agreement with the critical packing parameter theory. These findings increase the understanding of the behaviour of plant-based drinks and aid further development of new and existing plant-based dairy substitution products.
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来源期刊
ACS Biomaterials Science & Engineering
ACS Biomaterials Science & Engineering Materials Science-Biomaterials
CiteScore
10.30
自引率
3.40%
发文量
413
期刊介绍: ACS Biomaterials Science & Engineering is the leading journal in the field of biomaterials, serving as an international forum for publishing cutting-edge research and innovative ideas on a broad range of topics: Applications and Health – implantable tissues and devices, prosthesis, health risks, toxicology Bio-interactions and Bio-compatibility – material-biology interactions, chemical/morphological/structural communication, mechanobiology, signaling and biological responses, immuno-engineering, calcification, coatings, corrosion and degradation of biomaterials and devices, biophysical regulation of cell functions Characterization, Synthesis, and Modification – new biomaterials, bioinspired and biomimetic approaches to biomaterials, exploiting structural hierarchy and architectural control, combinatorial strategies for biomaterials discovery, genetic biomaterials design, synthetic biology, new composite systems, bionics, polymer synthesis Controlled Release and Delivery Systems – biomaterial-based drug and gene delivery, bio-responsive delivery of regulatory molecules, pharmaceutical engineering Healthcare Advances – clinical translation, regulatory issues, patient safety, emerging trends Imaging and Diagnostics – imaging agents and probes, theranostics, biosensors, monitoring Manufacturing and Technology – 3D printing, inks, organ-on-a-chip, bioreactor/perfusion systems, microdevices, BioMEMS, optics and electronics interfaces with biomaterials, systems integration Modeling and Informatics Tools – scaling methods to guide biomaterial design, predictive algorithms for structure-function, biomechanics, integrating bioinformatics with biomaterials discovery, metabolomics in the context of biomaterials Tissue Engineering and Regenerative Medicine – basic and applied studies, cell therapies, scaffolds, vascularization, bioartificial organs, transplantation and functionality, cellular agriculture
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