A process for producing a protein product from plants and yeasts comprises providing a thin stillage or a thin stillage concentrate; separating a protein concentrate from the thin stillage; diluting the protein concentrate to a dry substance content of at most 15 wt.%, tempering the diluted protein concentrate to at least 60° C., and adjusting the pH of the diluted and tempered protein concentrate to alkaline; cooling the processed protein concentrate and subsequently separating a liquid phase; adjusting the pH of the separated liquid phase to an acidic pH, and then separating a solid phase; and dispersing the solid phase in a solvent and subsequently separating a product phase, wherein the product phase comprises the protein product from plants and yeasts.

The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.

The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.

The invention relates to a peptide isolate isolated from a biomass of protein-rich microalgae, characterized in that it comprises: soluble peptides with a molecular weight of between 1 and 20 kDa, a protein content expressed as N.6.25 of more than 95%, essentially arginine and glutamic acid.

To provide a feed that does not pollute rearing water, improves the immunity activity of leptocephalus larvae, is capable of directly feeding eel leptocephalus, and is capable of effectively inducing the growth of said larvae into glass eels. This micro-encapsulated aquaculture feed includes: an oil phase 11 having an oil-soluble nutrient component; a water phase 13 which is present inside the oil phase 11, and which includes a water-soluble nutrient component; and a film 15 which includes the oil phase 11 and the water phase 13. The water-soluble nutrient component includes at least one hydrolysate from among hydrolysates of amino acids, oligopeptides, and proteins.

The invention relates to a method for fractionating the components of a biomass of protein-rich microalgae of the genus Chlorella, characterized in that it comprises the following steps: providing a microalgal biomass produced by fermentation, optionally, washing the biomass so as to eliminate the interstitial soluble compounds, thermal permeabilization of the biomass at a temperature of between 50 and 150° C., preferably 100 and 150° C., for a duration of between 10 seconds and 5 minutes, preferably for a duration of between 5 seconds and 1 minute, separation between the biomass thus permeabilized and the soluble fraction by a centrifugation technique, more particularly multistage centrifugation, optionally, recovery and clarification of the soluble fraction obtained in this way by microfiltration so as to remove residual insoluble substances therefrom, separation of the preceding soluble fraction by precipitation, so as to obtain a peptide isolate and a peptide concentrate.

The invention pertains to non-dairy proteins and nutritional compositions comprising non-dairy protein suitable for infant nutrition and a method of preparing a nutritional composition for infants or young children comprising non-dairy protein.

A method of making a meat structured protein product includes combining a denatured plant protein and a polysaccharide in the presence of an aqueous solvent to provide a phase-separated mixture including a dispersed phase rich in polysaccharide and a continuous phase rich in the denatured plant protein. The method further includes forming fibrous structures of the polysaccharide in a protein matrix of the plant protein at a temperature of less than 100° C. The protein matrix can be crosslinked to provide the meat structured protein product. Meat structured protein products made by the method are also disclosed.

The present invention relates to ready-to-drink formulations, processes for making such formulations, and the use of a transglutaminase and an amylase to reduce the viscosity of such formulations.

The present disclosure discloses an aquatic-plant protein combined restructured meat and a preparation method thereof, and belongs to the technical field of processing of foods. According to the present disclosure, a protein combined restructuring processing technology can be summarized as including pretreatment of an aquatic-plant protein, combined restructuring, high-temperature qualitative treatment, and integrated forming. The whole process is green, safe, and environmentally friendly. The protein combined restructured meat prepared contains two proteins including an animal protein and a plant protein, and has a protein content of greater than 20%. While the demands for nutritional dietary proteins are met, the chewability is greater than 1,500 g.Math.mm, and the viscoelasticity is excellent. The meat can be processed in various shapes according to needs, directly heated for eating, or processed into a prepared food, a semi-finished product and the like, so that the product has a large application space.