植物和乳蛋白的表面吸附和润滑性能:一项比较研究。

ty10086 提交于 周三, 08/25/2021 - 16:06
文章英文标题
Surface adsorption and lubrication properties of plant and dairy proteins: A comparative study.
正文
本工作旨在比较植物和乳蛋白的表面吸附和润滑性能。分别以乳清分离蛋白( WPI )和豌豆分离蛋白( PPI )为模式动植物蛋白,研究了不同蛋白浓度( 0.1 ~ 100 mg / mL )的热处理( 90 ° C / 60 min )和不热处理( 90 ° C / 60 min )对蛋白质含量的影响。在亲水性(金)和疏水性聚二甲基硅氧烷( PDMS )传感器上进行了石英晶体微天平与耗散监测( QCM-D )实验,并将后者用于模拟口腔表面。采用PDMS摩擦副进行软摩擦学除润湿性测量外,还进行了理化表征(尺寸、电荷、溶解度)和凝胶电泳。PPI的可溶性组分在PDMS表面的吸附程度显著增大,形成了比WPI更粘稠的薄膜,无论热处理。在PDMS表面引入黏蛋白涂层,导致后续膳食蛋白层的结合减少,PPI仍比WPI吸附更多。与WPI相比,如此大的PPI水合质量使其在较低的蛋白浓度(≤10 mg / m L )下具有优越的润滑性能。但在100 mg / m L时,WPI是比PPI更好的润滑剂,前者表现为弹流润滑的开始。热处理后润滑性能的提高归因于表观粘度的增加。本研究的基本观点揭示,豌豆蛋白在较高浓度时的润滑性比乳清蛋白差,会导致不愉快的口感,从而可能在设计可持续食品时为未来的替代策略提供参考。
文章内容(英文)
The aim of this work was to compare the surface adsorption and lubrication properties of plant and dairy proteins. Whey protein isolate (WPI) and pea protein isolate (PPI) were chosen as model animal and plant proteins, respectively, and various protein concentrations (0.1-100 mg/mL) were studied with/without heat treatment (90 °C/60 min). Quartz crystal microbalance with dissipation monitoring (QCM-D) experiments were performed on hydrophilic (gold) and hydrophobic polydimethylsiloxane (PDMS) sensors, with or without a mucin coating, latter was used to mimic the oral surface. Soft tribology using PDMS tribopairs in addition to wettability measurements, physicochemical characterization (size, charge, solubility) and gel electrophoresis were performed. Soluble fractions of PPI adsorbed to significantly larger extent on PDMS surfaces, forming more viscous films as compared to WPI regardless of heat treatment. Introducing a mucin coating on a PDMS surface led to a decrease in binding of the subsequent dietary protein layers, with PPI still adsorbing to a larger extent than WPI. Such large hydrated mass of PPI resulted in superior lubrication performance at lower protein concentration (≤10 mg/mL) as compared to WPI. However, at 100 mg/mL, WPI was a better lubricant than PPI, with the former showing the onset of elastohydrodynamic lubrication. Enhanced lubricity upon heat treatment was attributed to the increase in apparent viscosity. Fundamental insights from this study reveal that pea protein at higher concentrations demonstrates inferior lubricity than whey protein and could result in unpleasant mouthfeel, and thus may inform future replacement strategies when designing sustainable food products.
来源出处
Journal|[J]Food HydrocolloidsVolume 111, 2021. PP 106364-106364
DOI
https://doi.org/10.1016/J.FOODHYD.2020.106364

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