The disclosure relates to methods, systems and compositions for use in the production of milk. More specifically, the disclosure is directed to systems, compositions and methods for in-vitro production of milk using an array of mammary organoids seeded on tertiary-branched, resilient duct scaffolding.

Methods and strategies for introducing genetic safeguards into microorganisms, genetically modified organisms (GMO) including the safeguards, and methods of use thereof are provided. The genetic safeguards generally impart a low escape frequency, are robust, and are modular. Safeguards with low escape frequency prevent the rise of mutants escaping defined media and limit growth in the wild. Robust safeguards retain wild-type levels of fitness while also maintaining containment in diverse growth conditions.

Methods and strategies for introducing genetic safeguards into microorganisms, genetically modified organisms (GMO) including the safeguards, and methods of use thereof are provided. The genetic safeguards generally impart a low escape frequency, are robust, and are modular. Safeguards with low escape frequency prevent the rise of mutants escaping defined media and limit growth in the wild. Robust safeguards retain wild-type levels of fitness while also maintaining containment in diverse growth conditions.

This invention relates to genetically engineered strains of yeast and methods, for producing recombinant protein (e.g., collagen). Recombinant protein of the present invention is used to produce biofabricated leather or a material having leather-like properties containing recombinant or engineered collagen. The yeast strains are engineered to produce ascorbate and/or increased production of α ketoglutarate.

Compositions, kits, and methods for preparing nutrient compositions are provided. A nutrient composition can be a food composition such as a dairy composition. A nutrient composition may be produced by an engineered cell composition. Compositions, kits, and methods for preparing engineered cell compositions for producing nutrient compositions are also provided. An engineered cell composition may comprise genetically engineered cells, such as genetically engineered mammary or mammary-like cells. An engineered cell composition can be derived from mammalian stem cells, such as non-mammary adult stem cells. Related methods of characterization, such as for characterizing the engineered cell compositions or the nutrient compositions, are also provided.

Compositions, kits, and methods for preparing nutrient compositions are provided. A nutrient composition can be a food composition such as a dairy composition. A nutrient composition may be produced by an engineered cell composition. Compositions, kits, and methods for preparing engineered cell compositions for producing nutrient compositions are also provided. An engineered cell composition may comprise genetically engineered cells, such as genetically engineered mammary or mammary-like cells. An engineered cell composition can be derived from mammalian stem cells, such as non-mammary adult stem cells. Related methods of characterization, such as for characterizing the engineered cell compositions or the nutrient compositions, are also provided.

The disclosure relates to methods, systems and compositions for use in the production of milk. More specifically, the disclosure is directed to systems, compositions and methods for in-vitro production of milk using an array of mammary organoids seeded on tertiary-branched, resilient duct scaffolding.

The disclosure relates to methods, systems and compositions for use in the production of milk. More specifically, the disclosure is directed to systems, compositions and methods for in-vitro production of milk using an array of mammary organoids seeded on tertiary-branched, resilient duct scaffolding.

The disclosure relates to methods, systems and compositions for use in the production of milk. More specifically, the disclosure is directed to systems, compositions and methods for in-vitro production of milk using an array of mammary organoids seeded on tertiary-branched, resilient duct scaffolding.

The present invention provides a method for preparing non-toxic lacquer by detoxifying stems or sprouts of lacquer trees using a malt juice and a fermented rice bran, and a method for manufacturing a fermented rice bran enzyme with improved preservability or a powdered grain nutrient food with improved preservability and dietary property by using the non-toxic lacquer prepared thereby.