Abstract: Systems and methods for prenylation and recombinant pathways for the production of compounds, cannabinoids, cannabinoid precursors, and other prenylated chemicals in a cell free system. The present invention further includes enzymes and recombinant microorganisms that catalyze the reaction. The compounds, cannabinoids, cannabinoid precursors, and other prenylated chemicals are operable to be substituted with at least one deuterium, at least one tritium, at least one halogen, at least one hydroxyl group, and/or at least one additional isotope.

Abstract: Provided is an enzyme useful for prenylation and recombinant pathways for the production of cannabinoids, cannabinoid precursors and other prenylated chemicals in a cell free system as well and recombinant microorganisms that catalyze the reactions.

Abstract: Provided is an enzyme useful for prenylation and recombinant pathways for the production of cannabinoids, cannabinoid precursors and other prenylated chemicals in a cell free system as well and recombinant microorganisms that catalyze the reactions.

Abstract: The present disclosure relates to recombinant prenyltransferase enzymes with increased thermostability and activity and the use of these enzymes in compositions and methods for biosynthesis involving prenylation reactions, including compositions and methods for the preparation of cannabinoids.

Abstract: The present disclosure relates to recombinant prenyltransferase enzymes with increased thermostability and activity and the use of these enzymes in compositions and methods for biosynthesis involving prenylation reactions, including compositions and methods for the preparation of cannabinoids.

Abstract: The present disclosure relates to recombinant prenyltransferase enzymes with increased thermostability and activity and the use of these enzymes in compositions and methods for biosynthesis involving prenylation reactions, including compositions and methods for the preparation of cannabinoids.

Abstract: Provided is an enzyme useful for prenylation and recombinant pathways for the production of cannabinoids, cannabinoid precursors and other prenylated chemicals in a cell free system as well and recombinant microorganisms that catalyze the reactions.

Abstract: Provided is an enzyme useful for prenylation and recombinant pathways for the production of cannabinoids, cannabinoid precursors and other prenylated chemicals in a cell free system as well and recombinant microorganisms that catalyze the reactions.

Abstract: Provided is an engineered pathway that can function in a cell-free system, cellular system or a combination thereof to convert a sugar to a chemical or biofuel.

Abstract: The disclosure provides a metabolic pathway for producing a metabolite, the metabolic pathway having a co-factor purge valve system for recycling a cofactor used in the metabolic pathway.

Abstract: The disclosure provides a metabolic pathway for producing a metabolite, the metabolic pathway having a co-factor regulatory system for cofactor utilization in the metabolic pathway.

Abstract: The disclosure provides a metabolic pathway for producing a metabolite, the metabolic pathway having a co-factor purge valve system for recycling a cofactor used in the metabolic pathway.

Abstract: The disclosure provides a metabolic pathway for producing a metabolite, the metabolic pathway having a co-factor regulatory system for cofactor utilization in the metabolic pathway.

Abstract: The disclosure provides a metabolic pathway for producing a metabolite, the metabolic pathway having a co-factor purge valve system for recycling a cofactor used in the metabolic pathway.

Abstract: Provided is an engineered pathway that can function in a cell-free system, cellular system or a combination thereof to convert a sugar to a chemical or biofuel.

Abstract: The disclosure provides a metabolic pathway for producing a metabolite, the metabolic pathway having a co-factor purge valve system for recycling a cofactor used in the metabolic pathway.