The present disclosure relates to the field of commercial scale production and processing of biosynthetic cannabinoids produced by growing genetically modified microalgae in a photo-bioreactor to a produce biosynthetic cannabinoids, separating a liquid nutrient medium from the genetically modified microalgae, and extracting the biosynthetic cannabinoids to produce an extracted biosynthetic cannabinoid, then distilling the extracted biosynthetic cannabinoid to produce the biosynthetic cannabinoid distillate. Biosynthetic cannabinoid distillates may be used foodstuffs, beverages, nanoemulsions, spray-dried water-soluble powders, cosmetics, or topicals.

The present disclosure relates to the field of commercial scale production and processing of biosynthetic cannabinoids produced by growing genetically modified microalgae in a photo-bioreactor to a produce biosynthetic cannabinoids, separating a liquid nutrient medium from the genetically modified microalgae, and extracting the biosynthetic cannabinoids to produce an extracted biosynthetic cannabinoid, then distilling the extracted biosynthetic cannabinoid to produce the biosynthetic cannabinoid distillate. Biosynthetic cannabinoid distillates may be used foodstuffs, beverages, nanoemulsions, spray-dried water-soluble powders, cosmetics, or topicals.

Provided herein are nanoparticles including self-assembled cellular components derived from a homogenized plant tissue. Also provided are food powders and other related compositions. Methods for preparing such nanoparticles and food powders, as well as uses thereof in the treatment or prevention of diseases or disorders in a subject and/or as delivery vehicles are also described.

Provided herein are nanoparticles including self-assembled cellular components derived from a homogenized plant tissue. Also provided are food powders and other related compositions. Methods for preparing such nanoparticles and food powders, as well as uses thereof in the treatment or prevention of diseases or disorders in a subject and/or as delivery vehicles are also described.

Powderous formulations are disclosed containing vitamin E which can be produced easily and which can be used in many fields of application, but mainly in beverages.

Powderous formulations are disclosed containing vitamin E which can be produced easily and which can be used in many fields of application, but mainly in beverages.

The invention relates to a flavonoid delivery system comprising a co-precipitate of a hydrophobic flavonoid and a protein. The flavonoid delivery system comprises a high ratio of flavonoid to protein, allowing food products to be fortified with relatively large amounts of flavonoid without compromising the sensory properties of the food product.

The invention relates to a flavonoid delivery system comprising a co-precipitate of a hydrophobic flavonoid and a protein. The flavonoid delivery system comprises a high ratio of flavonoid to protein, allowing food products to be fortified with relatively large amounts of flavonoid without compromising the sensory properties of the food product.

Methods of separating components traditionally considered as waste material from mold-fermented compositions are described. The waste components can be separated either from unfiltered compositions or from a separation stream separated from a composition. In some embodiments, filamentous fungus used in the production of the mold-fermented composition is specifically targeted for separation. Incorporation of separated waste components into various products are also described herein. In some embodiments, the separated components are used in alternative meat products and other foods designed for human consumption. Separated components can also be used in animal feed, as feed stock for other fermentation processes, or for use in treating food, creating cosmetics, or chemical processes.

Methods of separating components traditionally considered as waste material from mold-fermented compositions are described. The waste components can be separated either from unfiltered compositions or from a separation stream separated from a composition. In some embodiments, filamentous fungus used in the production of the mold-fermented composition is specifically targeted for separation. Incorporation of separated waste components into various products are also described herein. In some embodiments, the separated components are used in alternative meat products and other foods designed for human consumption. Separated components can also be used in animal feed, as feed stock for other fermentation processes, or for use in treating food, creating cosmetics, or chemical processes.