The present disclosure relates to methods for production of (Z)-11-hexadecen-1-ol in a yeast cell using desaturases and fatty acyl-CoA reductase. Also disclosed are methods for production of (Z)-11-hexadecenal in a yeast cell. Also disclosed are methods for production of (Z)-11-hexadecen-1-yl acetate in a yeast cell. The disclosure also provides for nucleic acid constructs and yeast cells useful for performing the present methods, as well as to pheromone compositions.

Described herein are the discovery and/or optimization of enzymes involved in the biosynthesis of olivetolic acid, divarinic acid, and analogs thereof.

The present disclosure provides genetically modified host cells that produce a cannabinoid, a cannabinoid derivative, a cannabinoid precursor, or a cannabinoid precursor derivative. The present disclosure provides methods of synthesizing a cannabinoid, a cannabinoid derivative, a cannabinoid precursor, or a cannabinoid precursor derivative.

The disclosure relates to a recombinant microorganism engineered to express an enzyme which catalyzes the conversion of a primary amine and an acyl thioester to a fatty amide. The disclosure further encompasses a method of producing a fatty amide by culturing the recombinant microorganism in the presence of a carbon source.

The invention generally relates to the production of a fatty alcohol composition from recombinant microbial cells. The fatty alcohols are produced by expressing a gene encoding a heterologous fatty alcohol forming acyl-CoA reductase (FAR); a gene encoding a heterologous thioesterase (TE) gene and a gene encoding an acyl-CoA synthetase (ACS).

Methods are provided for biological conversion of anhydrosugars, such as anhydrosugars found in a pyrolysis oil, to fatty acid alkyl esters. The methods can include use of a genetically modified Escherichia coli (E. coli) bacteria that can convert levoglucosan and/or other anhydrosugars into fatty acid alkyl esters without requiring formation and conversion of an intermediate compound external to the bacteria. Optionally, the methods can be used in combination with methods for production and/or separation of increased amounts of levoglucosan from pyrolysis of biomass.

The disclosure relates to a recombinant microorganism engineered to express an enzyme which catalyzes the conversion of a primary amine and an acyl thioester to a fatty amide. The disclosure further encompasses a method of producing a fatty amide by culturing the recombinant microorganism in the presence of a carbon source.

Recombinant microorganisms are provided which have been engineered to produce fatty alcohols. Also provided are recombinant microorganisms which comprise a heterologous polynucleotide encoding a fatty alcohol reductase enzyme and an introduced polynucleotide encoding a -ketoacyl acyl carrier protein synthase.

A recombinant cell of Saccharomyces cerevisiae that includes in its genome nucleic acids encoding cannabinoid biosynthetic pathway genes. A cannabinoid is produced by the recombinant cell in the presence of a cannabinoid precursor substrate and at least one of the cannabinoid biosynthetic pathway genes is from an organism other than Cannabis sativa, wherein the at least one of the cannabinoid biosynthetic pathway genes encodes a prenyltransferase. In an embodiment, the prenyltransferase is NphB from Streptomyces sp. having the amino acid sequence of any one of SEQ ID NOs: 8-11. Also disclosed is a method for producing a cannabinoid with the recombinant cell and the cannabinoid precursor substrate.

In a first aspect, the present invention relates to new recombinant polypeptides derived from the newly identified gamma subunit of the fatty acid synthase protein complex. In addition, a fatty acid synthase protein complex comprising these new recombinant polypeptides are disclosed as well as nucleic acid molecules encoding these polypeptides. Further, a host cells containing the nucleic acid molecule encoding the polypeptides according to the present invention or expressing the polypeptide according to the present invention are described. In addition, an isolated fatty acid synthase protein complex is disclosed containing the newly identified gamma subunit thereof. Moreover, methods for determining the suitability of candidate compounds capable of inhibiting either the ketoreductase, enoylreductase or malonyl/palmitoyl transferase present in the FAS protein complex and methods for designing inhibitors of said enzymes are disclosed. Finally, the present invention relates to the inhibitors and their use in medicinal applications.