The present invention relates to an acidified protein product. Particularly, the invention relates to acidified protein product which can be used as a cheese or a meat substitute that can be fried or grilled. The present invention relates also the processes for producing such acidified protein products.

A protein hydrolysate obtained from at least one protein source from bluefish having (i) a degree of hydrolysis (DH) of at least 10%, (ii) at least 80% water-soluble protein with a molecular weight of less than 1000 Da, (iii) at least 0.3% phospholipids, and (iv) at least 0.5% DHA and EPA.

A protein hydrolysate obtained from at least one protein source from bluefish having (i) a degree of hydrolysis (DH) of at least 10%, (ii) at least 80% water-soluble protein with a molecular weight of less than 1000 Da, (iii) at least 0.3% phospholipids, and (iv) at least 0.5% DHA and EPA.

Provided are a method of preparing a hydrolysate of soy protein concentrate, a hydrolysate of soy protein concentrate prepared by the above method, and a feed composition including the hydrolysate.

Provided are a method of preparing a hydrolysate of soy protein concentrate, a hydrolysate of soy protein concentrate prepared by the above method, and a feed composition including the hydrolysate.

Provided herein are common starch-based and waxy starch-based hydrolyzed starches. The hydrolyzed starches described herein demonstrate desirable properties over existing hydrolyzed starches for food applications, including but not limited to, dairy, ready-to-eat cereal coatings, clean-label confectionary products, nutritional and cereal bars, crumb chocolate, infant and/or elderly nutrition.

Provided herein are common starch-based and waxy starch-based hydrolyzed starches. The hydrolyzed starches described herein demonstrate desirable properties over existing hydrolyzed starches for food applications, including but not limited to, dairy, ready-to-eat cereal coatings, clean-label confectionary products, nutritional and cereal bars, crumb chocolate, infant and/or elderly nutrition.

A process for preparing a milk protein hydrolysate comprising hydrolysing a milk-based proteinaceous material with a microbial alkaline serine protease in combination with bromelain, a protease from Aspergillus and a protease from Bacillus.

A process for preparing a milk protein hydrolysate comprising hydrolysing a milk-based proteinaceous material with a microbial alkaline serine protease in combination with bromelain, a protease from Aspergillus and a protease from Bacillus.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. A product is produced by a method comprising de-solubilizing protein in a first material comprising oilcake to produce a processed material comprising an insoluble protein fraction by extruding the first material in a pressure range of 10 bar to 80 bar. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into the product by extruding the insoluble protein fraction in a pressure range of 10 bar to 80 bar.