The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.

Edible thermal pressure molded and shaped composites made from the milk of ruminant animals. The composites have combinations of desirable material characteristics. Each composite can be characterized utilizing physical peak compression strength at associated temperature, with specific total moisture.

Fermented milk, containing 0.8 g or more of dephosphorylated casein per 100 g of the fermented milk. Dephosphorylated milk, containing dephosphorylated casein. A method for manufacturing fermented milk, including: (a) fermenting raw material milk in a presence of a protein phosphatase and (b) fermenting raw material milk enzyme-treated with the protein phosphatase.

The present invention describes a method for preparing a fermented food product comprising a plant protein, comprising incubating a solution comprising a plant protein with phytase, and fermenting a solution comprising a plant protein with lactic acid bacteria.

The present invention relates to a wild-type, non-engineered, microbial lipolytic enzyme with a higher specificity for short-chain fatty acids than for medium to long fatty acids, specially long fatty acids. This invention further relates to a process for preparing a food product, and to the use of the wild-type, non-engineered, microbial lipolytic enzyme.

Provided herein are deglycosylating enzymes that remove a broad range of N-glycans from N-glycosylated proteins. Further provided are methods of recombinantly producing and expressing the deglycosylating enzymes. The presently described deglycosylating enzymes can be used to produce free glycans for characterization, and for prebiotic and immunostimulatory uses. In addition, the presently described deglycosylating enzymes can be used to produce deglycosylated proteins for characterization, to improve digestion, and to reduce immunogenicity.

Methods of processing protein, methods of generating products with the processed protein, and products comprising and/or made with the processed protein. The methods of processing protein include hydrolyzing the protein with a proteolytic agent such as thermolysin to generate hydrolyzed peptides and, optionally, crosslinking the hydrolyzed peptides with a transglutaminase to generate crosslinked peptides. The methods reduce the allergenicity of allergenicity proteins such as β-lactoglobulin and casein. The methods of generating products with the processed protein include methods of making foams, emulsions, and/or food products with the processed protein. The products comprising and/or made with the processed protein accordingly include foams, emulsions, and food products. The foams, emulsions, and food products have decreased allergenicity compared to corresponding products made with non-processed proteins.

A method for providing a low lactose milk-based product having GOS fiber is provided in which a milk substrate having lactose is treated with a transgalactosylating enzyme to provide GOS fiber and remaining lactose; deactivating the transgalactosylating enzyme; contacting the milk-based substrate having GOS fiber with a lactase to degrade the remaining lactose to provide the low lactose milk-based product having GOS fiber and deactivating the lactase. Also provided are enzymes and GOS fiber and lactose amounts and stability.

The present invention addresses the problem of providing a novel protein crosslinking method. In the present invention, a crosslinking reaction is accelerated by causing both an oxidoreductase such as a laccase and a protein deamidase such as a protein glutaminase to act on a substrate protein.

The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.