The present invention relates to the field of processing pea protein compositions. The present invention particularly relates to a method for preparing a high solubility pea protein composition and a product prepared thereby. The method of the present invention includes a step of subjecting a pea protein composition to high pressure homogenization. The method of the present invention significantly improves the solubility of pea protein compositions. The present invention further provides a pea protein composition prepared by the method, the pea protein composition having better solubility.

The present invention relates to the field of processing pea protein compositions. The present invention particularly relates to a method for preparing a high solubility pea protein composition and a product prepared thereby. The method of the present invention includes a step of subjecting a pea protein composition to high pressure homogenization. The method of the present invention significantly improves the solubility of pea protein compositions. The present invention further provides a pea protein composition prepared by the method, the pea protein composition having better solubility.

The present invention provides a method for the preparation of a gluten-containing grain having lowered levels of gluten. The method includes providing a prepared gluten-containing grain which may be optionally sterilized or pasteurized. The prepared gluten-containing grain is then inoculated with a prepared fungal component and incubated. In one embodiment the prepared fungal component myceliates the prepared gluten-containing grain while incubated and during this process hydrolyzes gluten in the prepared gluten-containing grain. The present invention also includes a gluten-containing grain having lowered levels of gluten which has been prepared by the methods of the invention.

The present disclosure generally relates to methods of preparing protein hydrolysates for use in pediatric nutritional compositions. Specifically, alpha-, beta- and/or kappa casein enriched casein, acid casein or caseinates can be hydrolyzed with proteases such as trypsin (trypsin-like), chymotrypsin (chymotrypsin-like), pepsin and/or plasmin to produce a hydrolysate that is close to the peptide composition of human breast milk.

A method for unlocking bioactive proteins that can then be used to activate natural remedies. The method includes starting with Silica salt and water mixture. Then a base of whey protein concentrate is added to the mixture. The pH of the whey protein mixture is raised using a base. The pH is held at a level above 11 for at least two hours. After at least two hours an acid is then added to the mixture to bring the pH of the mixture below 3 pH. This will stop the activation process. After the unattached proteins are removed the protein mixture is then brought back to a normal pH level, around 4 pH.

The present disclosure discloses the dual-functional bean-derived polypeptides and a preparation method therefor, and belongs to the technical field of functional polypeptides. The method includes extracting a bean source protein isolate from beans by an alkali-solution and acid-isolation method first, then subjecting the bean source protein isolate to infrared heat treatment, and finally performing enzymolysis with a protease to obtain the bean-derived polypeptides. The bean-derived polypeptides have dual functions of an antihypertensive activity and an antioxidant activity at the same time.

Provided herein are dairy-like compositions and the methods of making the same using one or more recombinant proteins.

The purpose of the present invention is to provide a processing technique with which it is possible to enhance the aroma of a plant protein food/beverage product ingredient and/or of a plant protein food/beverage product. By using a method for manufacturing a processed article of a plant protein food/beverage product ingredient and/or of a plant protein food/beverage product, the method including a step for treating a plant protein food/beverage product ingredient and/or a plant protein food/beverage product with a protein deamidation enzyme and a -amylase, it is possible to enhance the raw-ingredient-derived aroma of the resultant processed article of the plant protein food/beverage product ingredient and/or of the plant protein food/beverage product.

The purpose of the present invention is to provide a processing technique with which it is possible to enhance the aroma of a plant protein food/beverage product ingredient and/or of a plant protein food/beverage product. By using a method for manufacturing a processed article of a plant protein food/beverage product ingredient and/or of a plant protein food/beverage product, the method including a step for treating a plant protein food/beverage product ingredient and/or a plant protein food/beverage product with a protein deamidation enzyme and a -amylase, it is possible to enhance the raw-ingredient-derived aroma of the resultant processed article of the plant protein food/beverage product ingredient and/or of the plant protein food/beverage product.

The present invention is directed to enzyme based methods for removing water insoluble non-starch polysaccharides (NSPs) and/or water soluble or insoluble oligosaccharides from soy products without significantly damaging the proteins contained therein This removal is facilitated by the enzymatic hydrolysis of poly- and oligomeric carbohydrates into monosaccharides and other water soluble sugars. The present invention provides for the production of three streams of useful materials. The first is an enriched protein material comparable to the known SPCs but without significant quantities of undigestible oligosaccharides and polysaccharides. The second is an SPI made from the soluble protein in the hydrolysate which is valuable for high-quality feed, food and industrial uses. The third is the soluble saccharides and hydrolyzed carbohydrates (releasing sugars) that can be converted by fermentation to various valuable bioproducts.