Provided herein are compositions with enhanced protein content, compositions with functional proteins, protein combinations and methods for the preparation thereof.

The present invention relates to a method of producing an ideal whey protein concentrate. The whey protein concentrate has a pH in the range of 6.8-7.5 and 70-90% of the total proteins of the concentrate are whey proteins and 10-30% of the total proteins of the concentrate are caseins. The present invention relates also to an ideal whey protein concentrate and its uses in in reducing the total milk protein content and/or in increasing the whey protein content of a spoonable acidified milk product. In addition, the present invention relates to a method of producing a spoonable acidified milk product having high whey protein content but a reduced total milk protein content. The present invention relates also to a spoonable acidified milk product having high whey protein content but a reduced total milk protein content.

The present invention relates to a method of producing an ideal whey protein concentrate. The whey protein concentrate has a pH in the range of 6.8-7.5 and 70-90% of the total proteins of the concentrate are whey proteins and 10-30% of the total proteins of the concentrate are caseins. The present invention relates also to an ideal whey protein concentrate and its uses in in reducing the total milk protein content and/or in increasing the whey protein content of a spoonable acidified milk product. In addition, the present invention relates to a method of producing a spoonable acidified milk product having high whey protein content but a reduced total milk protein content. The present invention relates also to a spoonable acidified milk product having high whey protein content but a reduced total milk protein content.

The present disclosure relates to processes for producing antihypertensive peptide compositions from milk compositions. It also relates to peptide compositions producible by the processes, as well as dosage forms, food products, supplements, powdered milk formula and beverages containing the peptide compositions, and to therapeutic methods and uses of the peptide compositions.

The present disclosure relates to processes for producing antihypertensive peptide compositions from milk compositions. It also relates to peptide compositions producible by the processes, as well as dosage forms, food products, supplements, powdered milk formula and beverages containing the peptide compositions, and to therapeutic methods and uses of the peptide compositions.

The present invention relates to a novel method for preparing acid-gellable whey protein aggregates in the form of concentrated suspensions or powders. Moreover, the present invention relates to a novel composition containing the acid-gellable whey protein aggregates, to a food product ingredient comprising the novel type of acid-gellable whey protein composition, and to a food product comprising the novel type of acid-gellable whey protein composition.

The present invention relates to a novel method for preparing acid-gellable whey protein aggregates in the form of concentrated suspensions or powders. Moreover, the present invention relates to a novel composition containing the acid-gellable whey protein aggregates, to a food product ingredient comprising the novel type of acid-gellable whey protein composition, and to a food product comprising the novel type of acid-gellable whey protein composition.

The present disclosure provides a process for producing “cookable”, fibrous meat analogues employing directional freezing. The process includes subjecting an ingestible polysaccharide containing hydrogel of selected size and shape to directional freezing for inducing formation of elongated ice crystals with said elongated ice crystals aligned in a given direction in the ingestible hydrogel to form a textured hydrogel containing ice crystals. Following this the textured hydrogel is immersed in a solution containing an ingestible soluble protein at a preselected temperature so that as the ice crystals melt, the ingestible heat gelling protein diffuses into the texture hydrogel replacing the ice crystals. The textured hydrogel is immersed in the solution containing the ingestible heat gelling protein for a selected period of time required to give a desired amount of protein loading. The protein-infiltrated hydrogel is then heat-treated at a temperature sufficient to induce gelling and fiber formation within the hydrogel.

The present disclosure provides a process for producing “cookable”, fibrous meat analogues employing directional freezing. The process includes subjecting an ingestible polysaccharide containing hydrogel of selected size and shape to directional freezing for inducing formation of elongated ice crystals with said elongated ice crystals aligned in a given direction in the ingestible hydrogel to form a textured hydrogel containing ice crystals. Following this the textured hydrogel is immersed in a solution containing an ingestible soluble protein at a preselected temperature so that as the ice crystals melt, the ingestible heat gelling protein diffuses into the texture hydrogel replacing the ice crystals. The textured hydrogel is immersed in the solution containing the ingestible heat gelling protein for a selected period of time required to give a desired amount of protein loading. The protein-infiltrated hydrogel is then heat-treated at a temperature sufficient to induce gelling and fiber formation within the hydrogel.

The present invention provides a meat analogue processed food product that is inexpensive and has little pastiness derived from starch, a method for producing the meat analogue processed food product, and an additive for the meat analogue processed food product. The meat analogue processed food product, which contains a plant-protein-containing material and has a meat material content of 30 mass % or less, also contains a fat-processed starch as a raw material. The fat-processed starch content is preferably 0.5-10 mass %. Furthermore, the meat analogue processed food product preferably also contains one or more material selected from animal-sourced protein materials excluding the meat material and plant-sourced protein materials excluding the plant-protein-containing material, in which the animal-sourced protein materials are preferably selected from a milk protein material and an albumen, the plant-sourced protein materials are preferably selected form a pea protein material and a wheat protein material, and ideally the food product contains an albumen.