The present invention relates to a method for producing collagen peptides from bones, comprising the following steps: a) providing bones of vertebrates; b) mechanically crushing the bones to a particle size of less than 1 000 μm, preferably less than 500 pm, more preferably less than 300 μm, at a temperature of less than 70° C. during the crushing; c) heating the crushed bones in an aqueous suspension to a temperature of above 100° C., preferably above 120° C., more preferably above 130° C., for a period of from 1 to 30 min, preferably 2 to 10 min, more preferably 4 to 8 min; d) adding one or more proteases to the suspension in order to obtain an aqueous solution of collagen peptides; and e) separating off the aqueous solution of collagen peptides from the crushed bones, wherein the method does not comprise maceration of the bones with an acid or liming of the bones with a base, and wherein the bones provided in step a) have not undergone maceration or liming. The invention further relates to collagen peptides produced by this method.

Processes for preparing and purifying protein from plant material, and compositions and uses comprising the same, are provided.

The present invention relates to a method of improving tolerance to hypoallergenic infant formulas. The method comprises neutralizing the pH of infant formulas containing ingredients exhibiting fishy, sour, or beany characteristics.

An oyster peptide with an effect of improving sexual function and a preparation method thereof are provided, the oyster peptide at least includes peptide segments RI, IR and VR in its composition. Based on a mass of the oyster peptide, a content of the RI is ≥3.60 mg/100 g, a content of the IR is ≥7.60 mg/100 g, and a content of the VR is ≥6.50 mg/100 g.

A process for using bacterial or fungal metalloprotease and trypsin to solve problems associated with conventional protease extraction techniques by dramatically reducing temperature, incubation time and proteolysis during protease extraction. The present disclosure relates to a protease treatment for increasing yield from plant or other material by extracting nutrients from the fibrous waste portion of milled plant material while preserving the nutritional and functional qualities of the extracted material for use as a food product. The process preserves the quality of the extracted material, including beta glucan and protein, by utilizing low temperatures and minimal protease activity and digestion time during extraction.

A cell hydrolysate composition, the composition comprising substantially all protein polypeptides and/or polypeptide fragments derived substantially from all the proteins in a cell from an in vitro cell culture.

A cell hydrolysate composition, the composition comprising substantially all protein polypeptides and/or polypeptide fragments derived substantially from all the proteins in a cell from an in vitro cell culture.

The present application relates to an Allomyrina dichotoma larva extract and a method for preparing the same.

The present disclosure is related to non-dairy analogs and beverage formulations comprising a deamidated refined protein component and method of using such products. The non-dairy analogs and beverage formulations exhibit improved properties such as decreased precipitation of the refined protein component. In certain embodiments, these non-dairy analogs can exhibit improved stability when used as a substitute for a dairy product in food products including but not limited to yogurt, sour cream, ice cream, coffee creamer, heavy cream, whipping cream, pudding, soft cheese, or hard cheese. In certain embodiments, the non-dairy analogs exhibit substantially reduced or no visible feathering when added to hot beverages such as coffee or tea.

A cell hydrolysate composition, the composition comprising substantially all protein polypeptides and/or polypeptide fragments derived substantially from all the proteins in a cell from an in vitro cell culture.