The present invention relates to a method for preparation of a fermented Allium tuberosum composition which is obtained by inoculating and fermenting Allium tuberosum with yeast to generate nitrite ions and adding an anthocyanin to stabilize the nitrite ions, and to the fermented Allium tuberosum composition, whereby when ingested into the body, the natural nitrite ions are converted into nitric oxide to induce various biological activities such as hypotension, immunopotentiation, improved blood circulation, and the like. An anthocyanin can be obtained in the form of an extract from aronia, purple corn, black rice, berries such as blueberries and so forth, black bean, and the like and can improve the thermal stability of nitrite ions. Provided are thus a method for preparing a nitrite ion-stabilized, fermented Allium tuberosum liquid by adding an anthocyanin to a fermented Allium tuberosum liquid and a composition thereof.

The invention relates to production of a yeast strain with increased mannan oligosaccharides, amino acids, and complex carbohydrates. The invention further relates to the process to propagate and ferment such yeast. The invention further relates to methods of use of the yeast as a feed additive for animals and a food product for humans.

The present invention relates to a method for obtaining yeast proteins comprising the following steps: a) providing a yeast cream; b) exposing this yeast cream to a thermal plasmolysis at a temperature between 70 and 95° C. for a period between 30 seconds and 4 hours, preferably between 1 minute and 3 hours, more preferably between 40 minutes and 2 hours; b) separating the insoluble fraction and the soluble fraction; c) subjecting the insoluble fraction to the activity of at least one ribonuclease and a glucanase, sequentially or simultaneously, at a temperature between 40 and 65° C., preferably 60° C., for a period between 8 and 24 hours, preferably 18 hours; d) separating the insoluble fraction from the soluble fraction; wherein the insoluble fraction collected in step d) has no taste, having a nucleotide content less than 3% and a true protein content of at least 72%. Step b′) is optional. In this case, the entirety of the composition obtained after thermal plasmolysis of the yeast cream is subjected to enzymatic activity.

The present invention relates to a method for obtaining yeast proteins comprising the following steps: a) providing a yeast cream; b) exposing this yeast cream to a thermal plasmolysis at a temperature between 70 and 95° C. for a period between 30 seconds and 4 hours, preferably between 1 minute and 3 hours, more preferably between 40 minutes and 2 hours; b) separating the insoluble fraction and the soluble fraction; c) subjecting the insoluble fraction to the activity of at least one ribonuclease and a glucanase, sequentially or simultaneously, at a temperature between 40 and 65° C., preferably 60° C., for a period between 8 and 24 hours, preferably 18 hours; d) separating the insoluble fraction from the soluble fraction; wherein the insoluble fraction collected in step d) has no taste, having a nucleotide content less than 3% and a true protein content of at least 72%. Step b′) is optional. In this case, the entirety of the composition obtained after thermal plasmolysis of the yeast cream is subjected to enzymatic activity.

Method of manufacturing food products from a material comprising liquid spent brewers yeast is provided herein. A method for processing liquid spent brewers' yeast as the primary ingredient and at least one secondary protein ingredient into food products suitable for safe human consumption comprises subjecting a mix of primary and secondary ingredients to heat treatment at elevated pressure. The resulting product has a meaty flavor and texture, and a reduced RNA content. The process uses ingredients in their native liquid form, skipping drying and isolation, which reduces waste and is cost-effective.

Method of manufacturing food products from a material comprising liquid spent brewers yeast is provided herein. A method for processing liquid spent brewers' yeast as the primary ingredient and at least one secondary protein ingredient into food products suitable for safe human consumption comprises subjecting a mix of primary and secondary ingredients to heat treatment at elevated pressure. The resulting product has a meaty flavor and texture, and a reduced RNA content. The process uses ingredients in their native liquid form, skipping drying and isolation, which reduces waste and is cost-effective.

The disclosure relates to isolated microorganisms—including novel strains of the microorganisms—microbial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

The disclosure relates to isolated microorganisms—including novel strains of the microorganisms—microbial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

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.