Extracellular microbial proteases with specificity for plant proteins in food fermentation

Abstract

Plant-based food products are generating a growing interest as part of the ongoing transition to a primarily plant-based diet, which makes demands to the quality, functionality, and health properties of plant proteins. Microbes used for traditional food fermentations such as lactic acid bacteria (LAB) and fungi (yeasts and molds) carry out enzymatic changes on their protein substrates by which technological and sensorial characteristics can be improved. The literature on extracellular proteases targeting plant proteins, on the other hand, is scattered with only a narrow representation of plants even for traditionally plant-based products. Therefore, this review aims to explore the current state of knowledge regarding the application potential of microbial extracellular proteases targeting plant proteins, with a focus on traditional applied food microbes. Plant proteins are targeted by proteolytic microbes of both animal and plant origins, and their proteases show a wide range of activities. Extracellular microbial proteases can hydrolyze specific protein-based allergens and even reduce the toxicity of plant proteins. Additionally, microbial assisted proteolysis can improve plant protein digestibility by increasing availability of peptides and amino acids. This catabolic process will change the organoleptic characteristics of fermented plant proteins, and the release of bioactive peptides can provide additional functionalities to the plant matrix. The proteolytic activity is determined by the microbial strain, and it can be quite substrate selective, which is why proteases may be overlooked by the prevalent use of casein as substrate in proteolytic screenings. The synergetic effects of LAB and fungal species consortia can facilitate and steer plant protein hydrolysis by which co-fermentation may increase or change the properties of plant protein hydrolysates. Microbes do not necessarily require extracellular proteases because endogenous proteases in a plant-matrix may meet the microbial amino acid requirements. However, extracellular proteases have the potential to provide central properties to diverse food-matrixes by which the full proteolytic potential of food microbes needs to be explored in order to facilitate the development of high-quality plant-based food products.

Keywords: Extracellular microbial proteases; Fermentation; Fungi; Lactic acid bacteria; Plant proteins.