Provided herein are methods and compositions for producing cannabinoids and other metabolites in a host cell.

This document relates to using bidirectional, multi-enzymatic scaffolds to biosynthesize cannabinoids in recombinant hosts.

The present invention provides genetically engineered host organisms capable of producing terpenoids. The present invention also relates terpenoids obtained from such genetically engineered organisms. Examples of the produced terpenoids include carotenoids, ionones, abienol, and other isoprenoid derived compounds. In addition, the invention relates to a methods of for the preparation of terpenoids using such a genetically engineered organism.

The present invention relates a variant polypeptide having geranylgeranyl pyrophosphate synthase activity, which variant polypeptide comprises an amino acid sequence which, when aligned with a geranylgeranyl pyrophosphate synthase comprising the sequence set out in SEQ ID NO: 1, comprises at least one substitution of an amino acid residue corresponding to any of amino acids at positions 92, 100 or 235 said positions being defined with reference to SEQ ID NO: 1 and wherein the variant has one or more modified properties as compared with a reference polypeptide having geranylgeranyl pyrophosphate synthase activity. A variant polypeptide of the invention may be used in a recombinant host for the production of steviol or a steviol glycoside.

Enzymes involved in cannabinoid biosynthesis are recombinantly expressed in a host cell. The host cell may be a prokaryote (e.g. Escherichia coli) or a eukaryote (e.g. Yarrowia lipolytica). The enzymes include a heterologous cannabigerolic acid synthase as well as additional enzymes involved in the biosynthesis of cannabinoid precursors such as geranyl diphosphate, olivetol, olivetolic acid, divarin and/or divarinic acid. Methods are provided for producing C5-cannabinoids and/or C3-cannabinoids by fermentation of the recombinant host cell. Alternatively, cannabinoids can be produced by biotransformation of cannabinoid precursors in recombinant cells or by disrupted recombinant cells.

The present invention relates a variant polypeptide having geranylgeranyl pyrophosphate synthase activity, which variant polypeptide comprises an amino acid sequence which, when aligned with a geranylgeranyl pyrophosphate synthase comprising the sequence set out in SEQ ID NO: 1, comprises at least one substitution of an amino acid residue corresponding to any of amino acids at positions 92, 100 or 235 said positions being defined with reference to SEQ ID NO: 1 and wherein the variant has one or more modified properties as compared with a reference polypeptide having geranylgeranyl pyrophosphate synthase activity. A variant polypeptide of the invention may be used in a recombinant host for the production of steviol or a steviol glycoside.

This invention relates to the field of genetic engineering. Specifically, the invention relates to the construction of operons to produce biologically active agents. For example, operons may be constructed to produce agents that control the function of biochemical pathway proteins (e.g., protein phosphatases, kinases and/or proteases). Such agents may include inhibitors and modulators that may be used in studying or controlling phosphatase function associated with abnormalities in a phosphatase pathway or expression level. Fusion proteins, such as light activated protein phosphatases, may be genetically encoded and expressed as photoswitchable phosphatases. Systems are provided for use in controlling phosphatase function within living cells or in identifying small molecule inhibitors/activator/modulator molecules of protein phosphatases associated with cell signaling.

The present disclosure relates generally to methods, isolated polypeptides and polynucleotides, expression vectors, and host cells for the production of cannabidiolic acid (CBDa), cannabigerolic acid (CBCa), and other phytocannabinoids. A method of producing CBDa, CBCa, and/or other phytocannabinoids in a heterologous host cell having CBDa-producing, CBCa-producing or phytocannabinoid-producing capacity comprises transforming the host cell with a nucleotide encoding a variant CBDa synthase protein having a serine insertion between residues P224 and K225 and one or more other amino acid mutation relative to wild type CBDa synthase, and culturing the transformed host cell to produce CBDa, CBCa, and/or other phytocannabinoids therefrom. The variant CBDa synthase protein has at least 85% sequence identity with the wild type CBDa synthase protein sequence OXC52 according to SEQ ID NO:140, with serine insertion (SEQ ID NO:141). Exemplary variants having good phytocannabinoid production capacity are described.

A composition for treating cancer is disclosed. The composition includes a lentiviral particle and an aminobisphosphonate drug. The lentiviral particle is capable of infecting a target cell, such as a cancer cell, and includes an envelope protein optimized for targeting such target cell and a viral vector. The viral vector includes a small RNA optimized to target an FDPS mRNA sequence. The aminobisphosphonate drug includes zoledronic acid.

The present invention provides methods and compositions for producing cannabinoids in photosynthetic microorganisms, e.g., cyanobacteria.