The present disclosure relates to an artificial metabolon formed by selective self-assembly, production and use thereof, specifically, an artificial metabolon formed by de novo, in vivo assembly of multi-step metabolic pathway enzymes without using any external scaffold, production and use thereof.

Provided is a group of new uridine diphosphate (UDP)-glycosyltransferases, which are carbon glycoside glycosyltransferases, wherein the glycosyltransferases can specifically and efficiently catalyze the carbon glycoside glucosylation of a dihydrochalcone(s) compound or a 2-hydroxyflavanone(s) compound, thereby producing a carbon glycoside dihydrochalcone(s) compound or a carbon glycoside-2-hydroxyflavanone(s) compound; and a flavonoid carbon glycoside(s) compound is formed from a carbon glycoside-2-hydroxyflavanone(s) compound by means of a further dehydration reaction. Further provided is the use of said new UDP glycosyltransferases in artificially constructed recombinant expression systems to produce a carbon glycoside dihydrochalcone(s) compound or a flavonoid carbon glycoside(s) compound by means of fermentation engineering.

The invention provides a method of producing a host cell, plant cell or plant with increased trilobatin content or increased N 4′-O-glycosyltransferase activity, the method comprising transformation of the host cell or plant cell with a polynucleotide encoding a polypeptide with 4′-O-glycosyltransferase activity. The invention also provides host cells, plant cells and plants, genetically modified to contain and or express the polynucleotides.

A recombinant micro-organism producing resveratrol by a pathway in which phenylalanine ammonia lyase (PAL) produces trans-cinnamic acid from phenylalanine, cinnamate 4-hydroxylase (C4H) produces 4-coumaric acid from said trans-cinnamic acid, 4-coumarate-CoA ligase (4CL) produces 4-coumaroyl CoA from said 4-coumaric acid, and resveratrol synthase (VST) produces said resveratrol from said 4-coumaroyl CoA, or in which L-phenylalanine- or tyrosine-ammonia lyase (PAL/TAL) produces 4-coumaric acid, 4-coumarate-CoA ligase (4CL) produces 4-coumaroyl CoA from said 4-coumaric acid, and resveratrol synthase (VST) produces said resveratrol from said 4-coumaroyl CoA. The micro-organism may be a yeast, fungus or bacterium including Saccharomyces cerevisiae, E. coli, Lactococcus lactis, Aspergillus niger, or Aspergillus oryzae.

The present invention relates to a method for the recombinant production of olivetolic acid (OA) in a host species selected from amoebozoa, based on a hybrid-gene or enzyme of polyketide synthase 37 (PKS37) in which the C-terminal type III PKS domain from an amoeba is replaced by an olivetol synthase (OLS) from a plant, and is expressed together with an olivetolic acid cyclase from a multi-gene expression vector. Further provided is a recombinant amoebozoa host species, and an improved method for producing Δ.sup.9-tetrahydrocannabinol (THC) or other cannabinoids.

Disclosed herein are novel microbial polycultures of two or more cell strains, capable of producing flavanones, flavonoids, and anthocyanidin-3-O-glucosides, and methods of use thereof. Also disclosed is a microbial cell capable of producing phenylpropanoic acids, and methods of use thereof.

Disclosed herein are novel microbial polycultures of two or more cell strains, capable of producing flavanones, flavonoids, and anthocyanidin-3-O-glucosides, and methods of use thereof. Also disclosed is a microbial cell capable of producing phenylpropanoic acids, and methods of use thereof.

The present disclosure provides microbial cells and methods of producing FOPPA resulting from unique biosynthetic pathways, including biosynthetic pathways based on the phenylalanine/tyrosine biosynthetic branch and biosynthetic pathways based on bacteria metabolism. In particular, the present invention provides methods of producing FOPPA in microbial cells. These methods provide a low-cost, sustainable, and environmentally friendly source for FOPPA.

Disclosed herein are novel microbial polycultures of two or more cell strains, capable of producing flavanones, flavonoids, and anthocyanidin-3-O-glucosides, and methods of use thereof. Also disclosed is a microbial cell capable of producing phenylpropanoic acids, and methods of use thereof.

Provided herein are recombinant hosts and methods for producing phenylpropanoid and phenylpropanoid derivative compounds. It was found that tyrosine ammonia lyase from Aeromonas salmonicida A449 provides improved coumaric acid production.