A composition for enhancing protein digestion is disclosed, which includes at least one acid component, at least one base component and a protein digestion enhancer, wherein the at least one acid component is one selected from a group consisting of an organic acid, a phosphoric acid and a combination thereof, the at least one base component is one selected from a group consisting of an organic base, a phosphate and a combination thereof, the at least one acid component and the at least one base component conjugate with each other to form a buffer formulation, and the protein digestion enhancer is one selected from a group consisting of an ascorbic acid, a salt of the ascorbic acid and a combination thereof.

The invention relates to use of ionic polymers (IP) consisting of anions and a polymeric backbone containing cations, in hydrolyzing proteins and protein-containing feedstock to produce protein hydrolysates.

The invention relates to use of ionic polymers (IP) consisting of anions and a polymeric backbone containing cations, in hydrolyzing proteins and protein-containing feedstock to produce protein hydrolysates.

The present invention provides methods for extraction of amino acid-rich fractions from keratin-containing biological materials, and to amino acid-rich protein fractions generated by the methods described herein. The methods involve forming a reaction mixture with keratin containing material at a pH of 1.1 to 6.9. The reaction mixture is exposed to an energy source, such as microwaves, sufficient to degrade the keratin. The amino acid mixture which is subsequently extracted is substantially insoluble.

The present invention provides methods for extraction of amino acid-rich fractions from keratin-containing biological materials, and to amino acid-rich protein fractions generated by the methods described herein. The methods involve forming a reaction mixture with keratin containing material at a pH of 1.1 to 6.9. The reaction mixture is exposed to an energy source, such as microwaves, sufficient to degrade the keratin. The amino acid mixture which is subsequently extracted is substantially insoluble.

This disclosure provides novel silk fibroin protein based additives for foods or beverage products, and foodstuffs mixed or coated with pure silk fibroin-based proteins or protein fragments, and methods of making thereof.

This disclosure provides novel silk fibroin protein based additives for foods or beverage products, and foodstuffs mixed or coated with pure silk fibroin-based proteins or protein fragments, and methods of making thereof.

A process for the production of soybean meal with a high content of soluble proteins in which a soybean meal with a content of soluble proteins in KOH in the range of 60 to 75% is reached, in which the soluble sugars are first removed from the soybean meal for extraction with aqueous ethanol solution and then the oil by extraction with hexane, without intermediate desolventization and in a single integrated industrial unit; an SPC soybean meal having 58-62% of a crude protein content; and 60-70% of soluble proteins in KOH.

A process for the production of soybean meal with a high content of soluble proteins in which a soybean meal with a content of soluble proteins in KOH in the range of 60 to 75% is reached, in which the soluble sugars are first removed from the soybean meal for extraction with aqueous ethanol solution and then the oil by extraction with hexane, without intermediate desolventization and in a single integrated industrial unit; an SPC soybean meal having 58-62% of a crude protein content; and 60-70% of soluble proteins in KOH.

Systems and methods for manufacturing maltodextrin and protein nutritional products from rice are disclosed. Some embodiments include: milling hydrated rice, digesting with an α-amylase enzyme to form a mixture of maltodextrin and protein, and separating the protein and maltodextrin from one another.