Enzymes and methods are described herein for manufacturing terpenes, including terpenes.

Provided are a plant EPSPS mutant containing mutations L195P and S247G and an encoding gene and the use thereof, related to the field of genetic engineering technology. Comparing the plant EPSPS mutant with E. coli EPSPS, the amino acid sequence of the plant EPSPS mutant has the mutation L195P at position 195 corresponding to E. coli EPSPS and/or the mutation S247G at position 247 corresponding to E. coli EPSPS. The mutation of either of the two sites or the simultaneous mutation of the two sites can confer or improve the resistance of the plant EPSPS mutant to glyphosate. Plants or recombinant bacteria for transforming the plant EPSPS mutant can grow normally in the presence of glyphosate.

The invention generally relates to methods of producing loline alkaloids or precursors thereof, expression constructs, and host cells useful for producing loline alkaloids or precursors thereof, and methods for producing loline alkaloids or precursors thereof in a host cell.

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.

Methods that may be used for the manufacture of the chemical compound (R)-Reticuline and synthesis precursors thereof. Compositions useful for the synthesis (R)-Reticuline and synthesis precursors are also provided.

Described herein are non-natural variants of prenyltronsfcrases having at least one amino acid substitution as compared to its corresponding natural or unmodified prenyltransferascs. The variants are capable of an increased rate of formation of prenylated aromatic compounds, such as cannabinoids, as compared to a wild type control The prcnyltransferase variants can be expressed in an engineered microbe having a pathway to such cannabinoids, and optionally can include one or more other pathway transgencs to promote formation of substrate(s) for the prcnyltransferases. Therapeutically useful cannabinoids can be purified from engineered cells and cell cultures.

Described herein are genetically-engineered organisms comprising synthetic operons for the production of isoprenoids, carotenoids, and retinoids, optimized for use in a hydrocarbonoclastic organism, and methods for the synthesis and extraction of isoprenoids in a biofilm bioreactor comprising the genetically-engineered organisms.

Methods for evolving cells or strains towards improved methyltransferase activity, particularly SAM-dependent methyltransferase activity, as well as to cells and strains useful in such methods and methods of using the evolved cells in the production of methylated products.

Methods for evolving cells or strains towards improved methyltransferase activity, particularly SAM-dependent methyltransferase activity, as well as to cells and strains useful in such methods and methods of using the evolved cells in the production of methylated products.

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.