The present disclosure relates to methods for treating at least one source of proteins, treated protein material obtainable by said method of treatment, and food compositions for animals, preferably for pets, including said treated protein material.

The present disclosure relates to methods for treating at least one source of proteins, treated protein material obtainable by said method of treatment, and food compositions for animals, preferably for pets, including said treated protein material.

The invention relates to a process and a system for producing a textured edible protein product derived from insect larvae or worms. The process comprises a) reducing the insect larvae or worms in size to obtain a pulp, b) mixing the pulp with a hydrocolloid that gelates with metal cations in aqueous solution to form a protein-hydrocolloid slurry, and c) injecting the protein-hydrocolloid slurry into an aqueous solution of a metal cation with a valency of at least 2 to form the textured edible protein product. In step c) the protein-hydrocolloid slurry is jetted under pressure from outside of the aqueous solution of a metal cation with a valency of at least 2 into the aqueous solution at an oblique angle with respect to a liquid surface of the aqueous solution, thereby producing flakes of the textured edible protein product in the aqueous solution, in which flakes substantially all hydrocolloid has been gelated with the metal cations.

The invention relates to a process and a system for producing a textured edible protein product derived from insect larvae or worms. The process comprises a) reducing the insect larvae or worms in size to obtain a pulp, b) mixing the pulp with a hydrocolloid that gelates with metal cations in aqueous solution to form a protein-hydrocolloid slurry, and c) injecting the protein-hydrocolloid slurry into an aqueous solution of a metal cation with a valency of at least 2 to form the textured edible protein product. In step c) the protein-hydrocolloid slurry is jetted under pressure from outside of the aqueous solution of a metal cation with a valency of at least 2 into the aqueous solution at an oblique angle with respect to a liquid surface of the aqueous solution, thereby producing flakes of the textured edible protein product in the aqueous solution, in which flakes substantially all hydrocolloid has been gelated with the metal cations.

This document relates to materials and methods for the production of protein. For example, proteins having a low flavor or low color profile and food products comprising the same.

This document relates to materials and methods for the production of protein. For example, proteins having a low flavor or low color profile and food products comprising the same.

A use of a poultry crude protein extract for preparing an anti-fatigue composition is provided. The poultry crude protein extract is obtained by extraction of poultry meat at high temperature and high pressure and the removal of fat by oil and water separation, and the poultry crude protein extract includes at least branched-chain amino acid (BCAA), histidine, threonine, lysine, and phenylalanine, wherein anti-fatigue entails increasing muscle glycogen concentration, helping to increase exercise tolerance, helping to increase blood urea nitrogen metabolism, and helping to inhibit lactic acid production.

A use of a poultry crude protein extract for preparing an anti-fatigue composition is provided. The poultry crude protein extract is obtained by extraction of poultry meat at high temperature and high pressure and the removal of fat by oil and water separation, and the poultry crude protein extract includes at least branched-chain amino acid (BCAA), histidine, threonine, lysine, and phenylalanine, wherein anti-fatigue entails increasing muscle glycogen concentration, helping to increase exercise tolerance, helping to increase blood urea nitrogen metabolism, and helping to inhibit lactic acid production.

A protein fraction and an oxidation stable fat fraction are recovered from meat trimmings. The trimmings are comminuted, mixed with a food grade acid at pH 3.6 to 4.4 to form a liquid protein fraction and a solid fat fraction. The liquid fraction is mixed with a food grade alkali to precipitate the protein. A myoglobin rich fraction is recovered from the protein fraction and mixed with the precipitated protein.

A protein fraction and an oxidation stable fat fraction are recovered from meat trimmings. The trimmings are comminuted, mixed with a food grade acid at pH 3.6 to 4.4 to form a liquid protein fraction and a solid fat fraction. The liquid fraction is mixed with a food grade alkali to precipitate the protein. A myoglobin rich fraction is recovered from the protein fraction and mixed with the precipitated protein.