The present invention relates to a method for producing enzymatically hydrolysed water-soluble insect proteins, in particular from black soldier fly larvae protein as the protein source. In addition, the present invention relates to enzymatically hydrolysed water-soluble insect proteins and to Maillard reaction products of enzymatically hydrolysed water-soluble insect proteins, in particular from black soldier fly larvae protein as the protein source. Furthermore, the present invention relates to the use of the enzymatically hydrolysed water-soluble insect proteins or to the use of the Maillard reaction products of enzymatically hydrolysed water-soluble insect proteins. Finally, the present invention relates to a pet food product, a pet food ingredient, an animal feed product or an animal feed ingredient comprising, or consisting of, the enzymatically hydrolysed water-soluble insect proteins or the Maillard reaction products of enzymatically hydrolysed water-soluble insect proteins, and relates to a human food product or a human food ingredient comprising, or consisting of, the enzymatically hydrolysed water-soluble insect proteins or the Maillard reaction products of enzymatically hydrolysed water-soluble insect proteins.

A process for producing a protein product for addition to raw meat wherein the source of the protein product is animal muscle or mechanically deboned meat. The animal muscle tissue is mixed with water and homogenized. Protein in the homogenate is solubilized. Solubilized homogenate is heated to a temperature required for pasteurization and/or sterilization according to known standards. The homogenate is then adjusted to a value at which the protein precipitates. The precipitate is free of bacteria and toxins and can be used as meat or added to raw meat for delivery to a consumer as uncooked meat.

A process for producing a protein product for addition to raw meat wherein the source of the protein product is animal muscle or mechanically deboned meat. The animal muscle tissue is mixed with water and homogenized. Protein in the homogenate is solubilized. Solubilized homogenate is heated to a temperature required for pasteurization and/or sterilization according to known standards. The homogenate is then adjusted to a value at which the protein precipitates. The precipitate is free of bacteria and toxins and can be used as meat or added to raw meat for delivery to a consumer as uncooked meat.

The present invention relates to a method of enriching or screening for one or more target molecules from a primary source, which method comprises to provide at least one peptidic ligand comprising at least one lysine (K) and immobilized to a solid support; contacting the ligand(s) with a primary source comprising at least one target molecule comprising glutamine (Q); allowing the formation of complexes between the ligand and the target molecule; and separating the complexes from the primary source. The target molecule(s) comprises glutamine, and step c is performed in the presence of a catalytic protein comprising transglutaminase (TG). The catalytic protein comprising transglutaminase (TG) may comprise transglutaminase originating from fish, such as Atlantic cod TG (AcTG), e.g. AcTG-1, and the primary source may include waste material from the fish or dairy industry.

The present invention relates to a method of enriching or screening for one or more target molecules from a primary source, which method comprises to provide at least one peptidic ligand comprising at least one lysine (K) and immobilized to a solid support; contacting the ligand(s) with a primary source comprising at least one target molecule comprising glutamine (Q); allowing the formation of complexes between the ligand and the target molecule; and separating the complexes from the primary source. The target molecule(s) comprises glutamine, and step c is performed in the presence of a catalytic protein comprising transglutaminase (TG). The catalytic protein comprising transglutaminase (TG) may comprise transglutaminase originating from fish, such as Atlantic cod TG (AcTG), e.g. AcTG-1, and the primary source may include waste material from the fish or dairy industry.

The invention relates to a method for treating insects, comprising the separation of the cuticles from the soft part of the insects, wherein the separation is performed using a belt separator. The invention further relates to powders, in particular a powder obtainable by the method of treating insects according to the invention, and to the use of these powders in food.

A fat-containing composition obtained by converting insects or worms into nutrient streams, such as a fat-containing, an aqueous protein-containing and a solid-containing fraction, including (a) squashing insects or worms thereby obtaining a pulp, the insects or worms reduced in size, (b) heating the pulp to 70-100? C., and (c) subjecting the heated pulp to a physical separation step with the proviso that the method does not contain enzymatic treatment of the pulp. The fat-containing fraction contains at least 80 wt. % insect or worm fat with at least 40 wt. % saturated fats. The aqueous protein fraction can be dried to obtain dried protein material, which contains at least 50 wt. % insect or worm protein-derived matter and at most 25 wt. % insect or worm fat based on dry weight. The protein has a pepsin digestibility of at least 50%. The resulting nutrient streams can be used in food, petfood, feed and pharmaceutical industry.

A fat-containing composition obtained by converting insects or worms into nutrient streams, such as a fat-containing, an aqueous protein-containing and a solid-containing fraction, including (a) squashing insects or worms thereby obtaining a pulp, the insects or worms reduced in size, (b) heating the pulp to 70-100? C., and (c) subjecting the heated pulp to a physical separation step with the proviso that the method does not contain enzymatic treatment of the pulp. The fat-containing fraction contains at least 80 wt. % insect or worm fat with at least 40 wt. % saturated fats. The aqueous protein fraction can be dried to obtain dried protein material, which contains at least 50 wt. % insect or worm protein-derived matter and at most 25 wt. % insect or worm fat based on dry weight. The protein has a pepsin digestibility of at least 50%. The resulting nutrient streams can be used in food, petfood, feed and pharmaceutical industry.

The invention relates to the batch-wise provision of insect paste, such as paste from minced and heated black soldier fly larvae. In addition, the invention relates to a cooling assembly for batch-wise provision of the insect paste. Moreover, the invention relates to an insect paste and to an insect paste obtainable with the method. Finally, the invention relates to a food product, food ingredient, feed product or feed ingredient comprising the insect paste.

The invention relates to the batch-wise provision of insect paste, such as paste from minced and heated black soldier fly larvae. In addition, the invention relates to a cooling assembly for batch-wise provision of the insect paste. Moreover, the invention relates to an insect paste and to an insect paste obtainable with the method. Finally, the invention relates to a food product, food ingredient, feed product or feed ingredient comprising the insect paste.