Abstract
BackgroundMany food ingredients such as polyphenols, phenolic acids (e.g. present in fruit and vegetables) and organosulphur compounds (e.g. present in mustard, garlic and chives) covalently interact with meat, egg, dairy and plant-based proteins. The results of those interactions are manifold and range from altered technological properties (in emulsions, foams, gels) to sensory changes (colour formation, altered taste and smell) and different biological activity (allergy, antimicrobial effects, hydrolysis). Scope and approachThe present review discusses both the positive and the negative side effects of such interactions and explores the potential to fine-tune protein functionality during processing not only in model solutions but also in more complex foods. Key findings and conclusionsTraditionally, studies have focused on the negative effects of interactions between protein and plant ingredients (e.g. discolouration and solubility changes), but more recent studies highlight positive effects (e.g. enhanced emulsifying capacity, reduced allergy and targeted production of protein pigments). By controlling food processing conditions (e.g. protein nativity) and the food matrix (e.g. presence of antioxidative compounds or thiol groups, pH value during storage), the observed effects can be prevented or induced. On the basis of the listed findings, future processes can be developed that take such interactions into account to enable targeted co-processing of plant compounds with proteins. A better understanding of these interactions opens up a wealth of novel utilization potential.
Highlights
Interactions between proteins and plant molecules such as polyphenols are common and widespread in nature
Noncovalent interactions with proteins occur with vitamins and polyphenols from fruit and vegetables (Keppler, Martin, Garamus, & Schwarz, 2015; Shpigelman, Cohen, & Livney, 2012)
On the other hand, are often observed for oxidized polyphenols, and for electrophilic secondary plant compounds such as organosulphur compounds from garlic, chives or papaya pulp
Summary
Interactions between proteins and plant molecules such as polyphenols are common and widespread in nature. Polyphenol binding to plasma and signalling proteins were found to affect different metabolic pathways in humans (Lacroix et al, 2018) Noncovalent interactions with proteins occur with vitamins and polyphenols from fruit and vegetables (Keppler, Martin, Garamus, & Schwarz, 2015; Shpigelman, Cohen, & Livney, 2012) Due to their unstable nature, their effects on protein functionality during processing are not well predictable. We provide an overview of the possible advantages and disadvantages of protein modifications due to covalent reactions with plant metabolites relevant to food processing (polyphenols as well as sulphur compounds) and identify the process conditions under which they can be prevented or induced. This section describes how it is possible to use and control reactions/ modifications between proteins and plant molecules
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