The present invention is in the field of a method for production of biomedical compounds by enrichment cultures of microorganisms, and a product obtainable by said methods. The microorganisms are grown in a batch reactor, a continuous reactor, a semi-continuous reactor, such as a Nereda® reactor.

Described herein are engineered polynucleotides and vectors capable of encoding one or more engineered southern green stink bug pheromone synthesis enzymes. Also described herein are engineered southern green stink bug pheromone synthesis enzymes. Also described herein are methods of making modified plants capable of expressing one or more southern green stink bug pheromone synthesis enzymes.

In an aspect, the disclosure provides methods for making neurotransmitters in a host organism. The neurotransmitters can be cannabinoids and derivatives of cannabinoids. The host cells can be microalgae, fungi or other host cells. In a related aspect, the disclosure provides host cells engineered to have biochemical pathways for making neurotransmitters such as cannabinoids.

The present invention relates to a microorganism variant having the ability to extracellularly produce heme, and more particularly to a metabolically engineered microorganism variant having the ability to extracellularly produce heme and a method of producing heme using the same. According to the present invention, heme, an organometallic compound which is increasingly used as a health food or food supplement for the treatment of porphyria, can be extracellularly secreted and produced in high yield using the microorganism variant, but not conventional chemical synthesis or enzymatic synthesis.

Aspects of the disclosure relate to biosynthesis of cannabinoids and cannabinoid precursors in recombinant cells and in vitro.

Described herein are devices and methods for increasing the production of steviol glycosides, which have industrial and economic value. The steviol glycosides produced by the devices and methods disclosed herein do not require the ultra purification that is common in conventional or commercial methods and do not have a bitter aftertaste, making them better suited as flavor-enhancing additives to food, pharmaceutical, and nutritional supplement products.

The present disclosure provides recombinant host cells comprising a pathway capable of producing a cannabinoid and/or cannabinoid precursor, wherein the pathway comprises an enzyme AAE from a source organism other than Cannabis sativa, such as Humulus lupulus. The disclosure also provides methods of using the host cells to produce rare cannabinoids and/or rare cannabinoid precursors.

Provided is a transformant of a microorganism that has improved catechol productivity.

The present disclosure provides codon optimized nucleotide sequences encoding human REP1, vectors, and host cells comprising codon optimized REP1 sequences, and methods of treating retinal disorders such as choroideremia comprising administering to the subject a codon optimized sequence encoding human REP1.

The present disclosure provides for genetically modified organisms that provide numerous health benefits but also have an improved flavor profile and a more palatable aroma for the consumer of the organism.