A method and composition for providing hydrolyzed starch and fiber. In one aspect, the method comprises providing a first enzyme; a second enzyme; water; and a starting composition comprising at least one material selected from the group consisting of at least a portion of grain and at least a portion of pulse. Additional steps comprise hydrolyzing the fiber and starch in the at least one material through fiber and starch hydrolysis reactions catalyzed by the first and second enzymes, respectively. Further steps comprise deactivating the first and second enzymes. In a second aspect, a composition comprises at least one material selected from the group consisting of at least a portion of grain and at least a portion of pulse. The average molecular weights of the hydrolyzed starch and fiber molecules in the composition are fractions of the molecular weights of unhydrolyzed starch and fiber molecules, respectively.

A process for preparing a liquid oat base or drink of improved soluble oat protein content from an oats material, in particular an oats material that has not been heat treated in a humid state, comprises solubilizing oat protein in an aqueous solvent by means of protein-deamidase. Also disclosed is a corresponding liquid oat base and uses thereof.

Cocoa or cinnamon is mixed at least one enzyme to form a mixture, and the mixture is combined with a cereal food composition. In one embodiment, the cereal food composition is extruded or otherwise formed into a plurality of cereal pieces after the mixture is combined with the food composition. In another embodiment, the mixture is coated onto cereal pieces formed from the food composition. Preferably, the at least one enzyme includes at least two carbohydrases, and can also include soluble fiber enzymes, and even one or more fat soluble enzymes. In each case, the at least one enzyme is deactivated, either during working of the cocoa or cinnamon after combining with the cereal food composition or prior to the mixture being combined with the cereal food composition.

The present invention relates to the use of an enzymatic method for treating flour, semolina and protein extracts derived from cereals known to stimulate a pathological immune response in patients affected by Celiac Disease (CD). Said treatment drastically reduces or completely eliminates the toxicity of gluten or similar products derived from other cereals. The method uses the catalytic activity of microbial transglutaminase and, in particular, its ability to bind proteins in cereal flour or semolina to an alkylated (C.sub.1-C.sub.4) derivative of lysine. After the treatment said proteins extracted from flour show a substantially lowered immuno-stimulatory activity in celiac patients T lymphocytes.

The present invention relates to a method for preparing a dough which is to be stored frozen, which method comprises including a Penicillium glucose oxidase in the dough during preparation of the dough.

Further the present invention relates to a frozen dough comprising a Penicillium glucose oxidase and to a method for preparing a baked product, which method comprises baking a frozen dough comprising a Penicillium glucose oxidase.

Baked product prepared from a frozen dough comprising a Penicillium glucose oxidase are described and the use of a Penicillium glucose oxidase in the preparation of a frozen dough.

Cocoa or cinnamon is mixed at least one enzyme to form a mixture, and the mixture is combined with a cereal food composition. In one embodiment, the cereal food composition is extruded or otherwise formed into a plurality of cereal pieces after the mixture is combined with the food composition. In another embodiment, the mixture is coated onto cereal pieces formed from the food composition. Preferably, the at least one enzyme includes at least two carbohydrases, and can also include soluble fiber enzymes, and even one or more fat soluble enzymes. In each case, the at least one enzyme is deactivated, either during working of the cocoa or cinnamon after combining with the cereal food composition or prior to the mixture being combined with the cereal food composition.

A method for obtaining a food product from a wet mass of waste materials arising from production processes for producing products like beer, whisky, vodka, gin, tequila, liqueurs or citrus-fruit based distillates, cider, sake, soy sauce is provided. An enzyme is added to the waste materials that is suitable for breaking down possible gluten residues in the materials and making the enzyme act for a period between 15 and 30 minutes. The waste materials are boiled for at least 20 minutes. The waste materials are cooled and centrifuged to eliminate most of the water present in the waste materials. The materials are dried at a temperature between 70° C. and 100° C. for a time between 60 and 120 minutes, by a radio frequency dryer so as to obtain, at the end of drying, a product with relative humidity between 14 and 2%. A food product is provided that includes a percentage by weight between 1% and 60% of at least one flour obtainable from waste materials arising from the production processes for producing products like beer, whisky, vodka, gin, tequila, liqueurs or citrus-fruit based distillates, cider, sake, soy sauce, and at least one cereal flour, or vegetable flour, or animal flour, in a percentage by weight between 40% and 99%.

A fungal alpha-amylase is provided from Aspergillus fumigatus (AfAmyl). AfAmyl has an optimal pH of 3.5 and is operable at 30-75 degrees C., allowing the enzyme to be used in combination with a glucoamylase and an isoamylase in a saccharification reaction. This obviates the necessity of running a saccharification reaction as a batch process, where the pH and temperature must be readjusted for optimal use of the alpha-amylase or glucoamylase. AfAmyl also catalyzes the saccharification of starch substrates to an oligosaccharide composition significantly enriched in DP2 and (DPI+DP2) compared to the products of saccharification catalyzed by an alpha-amylase from Aspergillus kawachii. This facilitates the utilization of the oligosaccharide composition by a fermenting organism in a simultaneous saccharification and fermentation process, for example.

Described herein are antioxidant peptides and methods of producing the same. The antioxidant peptides are produced from cereal grain protein sources, which provide a number of advantages over more expensive antioxidant sources and synthetically-produced antioxidants. The antioxidant peptides are produced by reacting the cereal grain material with an enzyme capable of hydrolyzing proteins within the material, thereby forming hydrolysate peptides. The hydrolysate peptides are then selectively recovered to form an antioxidant peptide product. The antioxidant peptide product is useful in a number of applications, particularly as an ingredient in a food product to provide antioxidant properties to the food product.

Cocoa or cinnamon is mixed at least one enzyme to form a mixture, and the mixture is combined with a cereal food composition. In one embodiment, the cereal food composition is extruded or otherwise formed into a plurality of cereal pieces after the mixture is combined with the food composition. In another embodiment, the mixture is coated onto cereal pieces formed from the food composition. Preferably, the at least one enzyme includes at least two carbohydrases, and can also include soluble fiber enzymes, and even one or more fat soluble enzymes. In each case, the at least one enzyme is deactivated, either during working of the cocoa or cinnamon after combining with the cereal food composition or prior to the mixture being combined with the cereal food composition.