Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

A spore-forming Bacillus species, and more particularly, a Bacillus subtilis strain identified as MB40 is provided. Compositions comprising the MB40 strain, methods of making products comprising the same, and methods of using the same are also provided.

A spore-forming Bacillus species, and more particularly, a Bacillus subtilis strain identified as MB40 is provided. Compositions comprising the MB40 strain, methods of making products comprising the same, and methods of using the same are also provided.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

A yeast-containing dough that is used to form a leavened dough product having a desired degree of leavening is initially formed as two separate dough subcomponents that, when combined, leavens through a fermentation reaction process to form a dough having the desired degree of leavening. The first dough subcomponent includes a leavening activator, flour, salt and water, while the second dough component includes a biological leavening agent, flour, and water. When combined, the leavening agent reacts in the presence of the biological leavening activator through a fermentation process to form the dough having a desired degree of leavening, which can then be heated to a temperature exceeding a viability temperature of the leavening activator to terminate the fermentation process and form the leavened dough product. The dough can also be combined with at least one non-dough component to form the leavened dough product.

A yeast-containing dough that is used to form a leavened dough product having a desired degree of leavening is initially formed as two separate dough subcomponents that, when combined, leavens through a fermentation reaction process to form a dough having the desired degree of leavening. The first dough subcomponent includes a leavening activator, flour, salt and water, while the second dough component includes a biological leavening agent, flour, and water. When combined, the leavening agent reacts in the presence of the biological leavening activator through a fermentation process to form the dough having a desired degree of leavening, which can then be heated to a temperature exceeding a viability temperature of the leavening activator to terminate the fermentation process and form the leavened dough product. The dough can also be combined with at least one non-dough component to form the leavened dough product.

The present disclosure relates to a method for preparing crackers from Eragrostis tef flour. The method comprises mixing Eragrostis tef flour with a liquid medium and allowing the obtained batter to stand to obtain a fermented batter. The fermented batter is then uniformly spread to a wall thickness in the range of 3 mm to 5 mm on a heated griddle to obtain a crepe with random air pockets. The crepe is placed between a pair of heated discs and an incremental axially directed pressure is applied to reduce the wall thickness in the range of 0.5 mm to 1.5 mm to obtain the cracker. The crackers prepared by the method of the present disclosure retain the nutritional properties, are palatable, easily chewable and can be used as a healthy addition to the routinely used diet.

The present disclosure relates to a method for preparing crackers from Eragrostis tef flour. The method comprises mixing Eragrostis tef flour with a liquid medium and allowing the obtained batter to stand to obtain a fermented batter. The fermented batter is then uniformly spread to a wall thickness in the range of 3 mm to 5 mm on a heated griddle to obtain a crepe with random air pockets. The crepe is placed between a pair of heated discs and an incremental axially directed pressure is applied to reduce the wall thickness in the range of 0.5 mm to 1.5 mm to obtain the cracker. The crackers prepared by the method of the present disclosure retain the nutritional properties, are palatable, easily chewable and can be used as a healthy addition to the routinely used diet.

A method for producing powderized cannabis oil, and the resulting powderized cannabis oil, in which concentrated cannabis oil is mixed with and absorbed by a modified starch powder, preferably maltodextrin, in a ratio of at least three grams of starch powder for every one-eighth of a gram of cannabis oil is disclosed. Further disclosed are beverages, baked goods and single-serve beverage brewing cartridges utilizing or incorporating the powderized cannabis oil to create human-consumable products that contain an emulsified, tasteless, and odorless dose of cannabis oil.