Interaction betweenamylose,fattyacid,andβ-lactoglobulinto study multiplebiomacromoleculesself-assemblyandapplication  被引量:1

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作  者:Chen Chao Shiqing Huang Cuiping Wang Rong Sun Jinglin Yu Les Copeland Shujun Wang 

机构地区:[1]State Key Laboratory of Food Nutrition and Safety,School of Food Science and Engineering,Tianjin University of Science&Technology,Tianjin,China [2]School of Life and Environmental Sciences,The University of Sydney,Sydney,New South Wales,Australia

出  处:《Aggregate》2024年第4期182-198,共17页聚集体(英文)

基  金:Natural Science Foundation of Tianjin Municipal Science and Technology Commission,Grant/Award Number:20ZYJDJC00040;National Natural Science Foundation of China,Grant/Award Numbers:32030084,32202053,U22A20545。

摘  要:New concept for the development of supramolecular assemblies from intricate inter-actions between different classes of biomacromolecules(polysaccharides,proteins and lipids)is yet to come,due to their intrinsic chemical and structural complex-ity and incompatibility.Herein,we report an interaction mechanism among multiple biomacromolecules,and the structural and digestive properties of their assemblies using amylose(AM),lauric acid(LA),andβ-lactoglobulin(βLG)as exemplars.AM,LA,andβLG interact to form a water-soluble ternary complex through van der Waals forces between AM and LA and high affinity binding between AM andβLG,which can further assemble into uniform-sized,semi-crystalline nanospheres under certain thermodynamic conditions.These nanospheres are substantially resis-tant to amylolysis,thus can be well utilized by gut microbiota,including increasing short-chain fatty acid levels and shaping bacterial communities.Illustrating the com-plexation of AM,LA,andβLG and their assemblies from disorder to order,this work offers potential rationale of assemblies for multiple biomacromolecules driven by non-covalent interactions and substantial potentials for supramolecular biomaterials development.

关 键 词:amylose–lipid–protein complex BIOMACROMOLECULES gut microbiota multicomponent interaction polymeric nanospheres supramolecular self-assembly 

分 类 号:TB383[一般工业技术—材料科学与工程]

 

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