The present invention pertains to a long-life, high-protein, fermented dairy product comprising a total amount of protein of between 6 and 24% by weight, based on the total weight of the product; with a total amount of micellar casein in the range of 15 and 40% w/w, based on the total amount of protein, and a total amount of 25 and 75% w/w of microparticulated whey protein, based on the total amount of protein; further comprising between 0.3 and 4% by weight of two or more stabilizers selected from the group consisting of starch, gelatin, low-ester amidated pectin, guar, gellan gum, agar-agar, and carboxymethylcellulose, and wherein the total fat content lies between 0.05 and 15% by weight.

The present invention pertains to a long-life, high-protein, fermented dairy product comprising a total amount of protein of between 6 and 24% by weight, based on the total weight of the product; with a total amount of micellar casein in the range of 15 and 40% w/w, based on the total amount of protein, and a total amount of 25 and 75% w/w of microparticulated whey protein, based on the total amount of protein; further comprising between 0.3 and 4% by weight of two or more stabilizers selected from the group consisting of starch, gelatin, low-ester amidated pectin, guar, gellan gum, agar-agar, and carboxymethylcellulose, and wherein the total fat content lies between 0.05 and 15% by weight.

Suggested is method for producing galactooligosaccharides, comprising the following steps: (i) Providing an aqueous milk sugar solution; (ii) Sterilising the milk sugar solution; (iii) Performing a transgalactosilation of the milk sugars present in the sterilised milk sugar solution of step (ii) by adding at least one beta-galactosidase within its optimum temperature and pH value intervals for a period of at least 30 minutes, obtaining a reaction mixture; (iv) Inhibiting the enzyme mass in the reaction mixture of step (iii), and (v) Confectioning the reaction mixture of step (iv), Wherein (a) The enzyme mass is wholly or partly inhibited by setting a pH value outside the activity optimum of the enzymes; (b) The reaction mixture, together with the inhibited enzyme mass, is subjected to filtration, obtaining a retentate (R1) and a permeate (P1); (c) The inhibited amount of enzymes is separated as a retentate (R1) and is fed back to step (iii); and (d) The permeate (P2) containing the galactooligosaccharides is passed on to step (v).

The present disclosure includes denatured whey protein compositions. The compositions include at least 60 wt. % protein on a dry weight basis, less than 8 wt. % native glycomacropeptide (GMP), greater than 2 wt. % enzymatically hydrolyzed GMP relative to the total weight of the protein, a proteolysis index of at least 8 wt. %, and greater than 50 wt. % denatured whey proteins relative to the total weight of the protein.

The present disclosure includes denatured whey protein compositions. The compositions include at least 60 wt. % protein on a dry weight basis, less than 8 wt. % native glycomacropeptide (GMP), greater than 2 wt. % enzymatically hydrolyzed GMP relative to the total weight of the protein, a proteolysis index of at least 8 wt. %, and greater than 50 wt. % denatured whey proteins relative to the total weight of the protein.

Solid form nutrient compositions for use in delivering nutrients, such as iron sources, to plants and animals, including infant pigs, are provided. Embodiments include such solid form nutrient compositions, methods for making such compositions, compositions made by such methods, and methods for delivering nutrients to plants or animals with such compositions.

The invention relates to a method for manufacturing a strained fermented dairy product comprising the following successive steps: (a) providing a dairy product, (b) adding a lactase and a culture of bacteria comprising at least one strain of thermophilic lactic acid bacteria, with the provision that that it does not comprise any strain of mesophilic lactic acid bacteria, and fermenting the dairy product to obtain a fermented dairy product, and (c) separating a liquid whey from the fermented dairy product to obtain a strained fermented dairy product.

The present invention provides an effective means for improving the dispersibility of sediments or aggregates of microbial cells generated at the time of production and during storage of a food or beverage product containing microbial cells such as lactic acid bacteria. The present invention provides a beverage that contains microbial cells comprising (A) microbial cell powder and (B) polyglycerin fatty acid ester composed of polyglycerin having a polymerization degree of 3 to 10 and fatty acid having 10 to 18 carbon atoms connected by ester bonds.

The invention concerns a process for preparing an ultrafiltered whey protein hydrolysate comprising tolerogenic peptides wherein an emulsifier and/or a chaotropic agent is added before ultrafiltration. The invention further concerns the product obtainable by the process.

The invention concerns a process for preparing an ultrafiltered whey protein hydrolysate comprising tolerogenic peptides wherein an emulsifier and/or a chaotropic agent is added before ultrafiltration. The invention further concerns the product obtainable by the process.