The present invention provides for a genetically modified fungal host cell capable of producing indigoidine, wherein the host cell comprises a non-ribosomal peptide synthetase (NRPS) that converts glutamine to indigoidine.

Exemplary embodiments provided herein include genetically engineering microorganisms, such as yeast or bacteria, to produce cannabinoids by inserting genes that produce the appropriate enzymes for the metabolic production of a desired compound.

Genetically engineered cells and microorganisms are provided that produce products from the fatty acid biosynthetic pathway (fatty acid derivatives), as well as methods of their use. The products are particularly useful as biofuels.

The present invention relates generally to production methods, enzymes and recombinant yeast strains for the biosynthesis of clinically important prenylated polyketides of the cannabinoid family. Using readily available starting materials, heterologous enzymes are used to direct cannabinoid biosynthesis in yeast.

Exemplary embodiments provided herein include genetically engineering microorganisms, such as yeast or bacteria, to produce cannabinoids by inserting genes that produce the appropriate enzymes for the metabolic production of a desired compound.

A method of producing lipids, containing the steps of: culturing a transformant wherein the expressions of a gene encoding any one of the following proteins (A) to (F) and a gene encoding an acyl-ACP thioesterase are enhanced, and producing fatty acids or lipids containing these fatty acids as components:
(A) a protein consisting of the amino acid sequence set forth in SEQ ID NO: 2;
(B) a protein consisting of an amino acid sequence having 89% or more identity with the amino acid sequence of the protein (A), and having acyl-CoA synthetase activity;
(C) a protein consisting of the amino acid sequence set forth in SEQ ID NO: 4;
(D) a protein consisting of an amino acid sequence having 49% or more identity with the amino acid sequence of the protein (C), and having acyl-CoA synthetase activity;
(E) a protein consisting of the amino acid sequence set forth in SEQ ID NO: 6; and
(F) a protein consisting of an amino acid sequence having 85% or more identity with the amino acid sequence of the protein (E), and having acyl-CoA synthetase activity.

The present invention relates generally to production methods, enzymes and recombinant yeast strains for the biosynthesis of clinically important prenylated polyketides of the cannabinoid family. Using readily available starting materials, heterologous enzymes are used to direct cannabinoid biosynthesis in yeast.

An engineered microorganism(s) with novel pathways for the conversion of short-chain hydrocarbons to fuels and chemicals (e.g. carboxylic acids, alcohols, hydrocarbons, and their alpha-, beta-, and omega-functionalized derivatives) is described. Key to this approach is the use of hydrocarbon activation enzymes able to overcome the high stability and low reactivity of hydrocarbon compounds through the cleavage of an inert CH bond. Oxygen-dependent or oxygen-independent activation enzymes can be exploited for this purpose, which when combined with appropriate pathways for the conversion of activated hydrocarbons to key metabolic intermediates, enables the generation of product precursors that can subsequently be converted to desired compounds through established pathways. These novel engineered microorganism(s) provide a route for the production of fuels and chemicals from short chain hydrocarbons such as methane, ethane, propane, butane, and pentane.

The present invention relates to a genetically modified microorganism for the fermentative conversion of levulinic acid into propionyl-CoA and acetyl-CoA, and to a fermentation process for performing said conversion.

Provided herein are methods, compositions, and non-naturally occurring microbial organism for preparing compounds such as 1-butanol, butyric acid, succinic acid, 1,4-butanediol, 1-pentanol, pentanoic acid, glutaric acid, 1,5-pentanediol, 1-hexanol, hexanoic acid, adipic acid, 1,6-hexanediol, 6-hydroxy hexanoic acid, -Caprolactone, 6-amino-hexanoic acid, -Caprolactam, hexamethylenediamine, linear fatty acids and linear fatty alcohols that are between 7-25 carbons long, linear alkanes and linear -alkenes that are between 6-24 carbons long, sebacic acid and dodecanedioic acid comprising: a) converting a C.sub.N aldehyde and pyruvate to a C.sub.N+3 -hydroxyketone intermediate through an aldol addition; and b) converting the C.sub.N+3 -hydroxyketone intermediate to the compounds through enzymatic steps, or a combination of enzymatic and chemical steps.