Litcius/Paper detail

Role of protein-lipid interactions for food and food-based applications

Umamaheshweri Aruchunan, Christiani Jeyakumar Henry, Shaun Yong Jie Sim

2024Food Hydrocolloids36 citationsDOIOpen Access PDF

Abstract

Food structure is governed by the assembly and interactions between macromolecules such as carbohydrates, proteins, and lipids. A deeper understanding on the science governing food structure is integral for manufacturers seeking opportunities to develop food and food-based products with enhanced performance, safety, sustainability, and nutritional profiles. While interactions between protein and polysaccharides are generally well characterised for a range of applications, much less is known of the factors governing protein-lipid interactions (PLI) for food and food-based applications. This review examines the factors and mechanism of PLI for food and food-based applications. The influence of factors such as processing method, type of lipids and type of proteins on PLI and/or protein-lipid structures are summarised. In addition, we report a link between PLI and protein-lipid structures on techno-functional properties in food and food-based applications. Based on the analytical data on protein and lipid structures, we postulate a mechanism involved in PLI at the emulsion interfacial region. The findings from this study provides a starting point on understanding PLI and highlights the potential of PLI to influence techno-functional properties in food and food-based applications. • Effect of protein-lipid interaction on lipid and protein structures. • Correlation of protein microenvironment with protein-lipid interaction. • Mechanism of protein-lipid interactions at emulsion interface. • Influence of processing, lipid and protein types on protein-lipid structures and interactions. • Role of protein-lipid structures and interactions on texture, physical and oxidative stability.

Topics & Concepts

Food proteinChemistryFood scienceProteins in Food SystemsFood Chemistry and Fat AnalysisBiochemical Analysis and Sensing Techniques