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.

The present disclosure provides antibody cytokine engrafted proteins that bind to and stimulate intracellular signaling through a high affinity interleukin receptor. The antibody cytokine engrafted proteins find use in enhancing anti-inflammatory cell responses, and reducing pro-inflammatory effects in the treatment, amelioration and prevention of immune related disorders such as Type 1 Diabetes.

The present disclosure provides antibody cytokine engrafted proteins that bind to and stimulate intracellular signaling through a high affinity interleukin receptor. The antibody cytokine engrafted proteins find use in enhancing anti-inflammatory cell responses, and reducing pro-inflammatory effects in the treatment, amelioration and prevention of immune related disorders such as Type 1 Diabetes.

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.

The invention relates to a polynucleotide comprising a lacZ gene (lacZ.sup.FS) encoding a β-galactosidase characterized by a particular profile regarding its efficiency of hydrolysis of lactose. The invention is also directed to a Streptococcus thermophilus strain comprising a lacZ.sup.FS allele and bacterial composition thereof, and their use to obtain fermented milk not undergoing post-acidification.

A nutrient dense non-dairy food product includes water, a highly dispersible whole grain ingredient, a protein, a fiber, and a fat such that the product is free of exogenous stabilizers. The food product may also contain a fermentation agent.

A nutrient dense non-dairy food product includes water, a highly dispersible whole grain ingredient, a protein, a fiber, and a fat such that the product is free of exogenous stabilizers. The food product may also contain a fermentation agent.

Compositions and method comprising lactic acid-producing bacteria in baked goods.

Compositions and method comprising lactic acid-producing bacteria in baked goods.

An improved dry grind system and method for producing a sugar stream from grains or similar carbohydrate sources and/or residues, such as for biofuel production, using membrane filtration. In particular, a sugar/carbohydrate stream, which includes a desired Dextrose Equivalent (DE) where DE describes the degree of conversion of starch to dextrose (aka glucose) and/or has had removed therefrom an undesirable amount of unfermentable components, can be produced after saccharification and prior to fermentation (or other sugar conversion process) using membrane filtration, with such sugar stream being available for biofuel production, e.g., alcohol production, or other processes. In addition, the systems and methods also can involve the removal of certain grain components, e.g., corn kernel components, including protein, oil and/or fiber, prior to fermentation or other conversion systems. In other words, sugar stream production and/or grain component separation occurs on the front end of the system and method.