The demand for health-promoting food ingredients rises within an increasing market worldwide. Different milks fermented with bacteria, yeasts, moulds or enzymes from animal, plant and microbial sources offer a broad range of possibilities to cover different health aspects with new bioactive components. By the fermentation process interesting ingredients are enriched and released from the matrix, like lactoferrin, micro-nutrients, CLA and sphingolipids or synthesized, such as exo-polysaccharides and bioactive peptides. In particular, milk derived bioactive peptides exert several important health-promoting activities, such as anti-hypertensive, anti-microbial, anti-oxidative, immune-modulatory, opioid and mineral-binding properties. Milk-fermentation processes with probiotic bacteria synergistically combine health supporting bacterial and milk ingredient aspects which include new therapeutic solutions concerning hypercholesterolemia, carcinogenic intoxications, treatment of diarrhea, reduction of intestine pathogens, and supporting natural immune defense. Especially, milk-proteins and associated bioactive peptides released during microbial or enzymatic fermentation of milk offer a broad spectrum of new functional properties, for instance anti-hypertensive, anti-microbial, anti-oxidative, immuno-modulatory, opioid and mineral-binding properties. This review aimed at discussing recent research activities on physiological purposes and technical process aspects of functional components from fermented milk with a specific focus on biofunctional peptides released from fermented milk proteins.
Aside from bacteria, yeasts and moulds, enzymes from animal, vegetal and microbial sources are increasingly utilized for milk fermentation providing a broad spectrum of innovative product conceptions. In order to alter texture and flavour or to improve the nutritional value of milk-based products from different animal milks, microbial and enzymatic fermentation procedures are traditionally established worldwide. To date, genomic and proteomic approaches enable new selection strategies for precise enzymes for modern product applications. Hereby, generating beneficial health ingredients from milk is a main aspect. New insights into the biochemical mechanisms of enzymatic digestion and genetic engineering lead to enzymes with exact defined functions for explicit ripening flavour development or the improvement of texture of fermented milk products. The ability to synthesize complex exo-polysaccharides or to release bioactive peptides by accurate proteolytic activities of enzymes or to enzymatically cross-link the protein matrix in order to modify the texture characteristics of fermented milk products is a raising facet, especially for specific pharma-or nutraceutical applications. This review aimed at discussing the recent research activities on milk fermentative enzymes, with focus on the broad spectrum of enzyme origins and current aspects of genetic engineering. New approaches on proteolytic, lipolytic, glycolytic as well as milk clotting and protein cross-linking enzymatic activities are examined and associated with possible product applications. From technical prospective, advantages and disadvantages of immobilized enzymes within milk fermentation processes are critically discussed.
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