This application describes methods, including non-naturally occurring methods, for biosynthesizing 3-hydroxy-3-methylglutaryl-coA and intermediates thereof, as well as non-naturally occurring hosts for producing 3-hydroxy-3-methylglutaryl-coA. This application also describes methods, including non-naturally occurring methods, for biosynthesizing isoprene and intermediates thereof, as well as non-naturally occurring hosts for producing isoprene.

The present disclosure relates to the production of cannabinoids in yeast. In as aspect there is provided a genetically modified yeast comprising: one or more GPP producing genes and optionally, one or more GPP pathway genes; two or more olivetolic acid producing genes; one or more cannabinoid precursor or cannabinoid producing genes; one or more Hexanoyl-CoA producing genes, and at least 5% dry weight of fatty acids or fats.

A recombinant cell having a function of synthesizing acetyl-CoA from methyltetrahydrofolate, carbon monoxide, and CoA, including: a gene that expresses an exogenous NAD(P)H consumption pathway, the gene being expressed in the recombinant cell, wherein expression in at least one of endogenous NAD(P)H consumption pathways of the recombinant cell is down-regulated, and the endogenous NAD(P)H consumption pathway is different from the exogenous NAD(P)H consumption pathway, and the recombinant cell produces an organic compound having 4 or more carbon atoms from at least one selected from the group consisting of carbon monoxide and carbon dioxide via the exogenous NAD(P)H consumption pathway.

The present disclosure provides a genetically modified host cell capable of producing linalool (or 3,7-dimethylocta-1,6-dien-3-ol).

Provided are a recombinant yeast having improved ability to produce ginsenoside, which is prepared by overexpressing INO2 and INO4 or deleting OPT1 in a yeast having ability to produce ginsenoside, a method of preparing the yeast, and a method of producing ginsenoside by using the yeast.

This application describes methods, including non-naturally occurring methods, for biosynthesizing unsaturated pentahydrocarbons, such as isoprene and intermediates thereof, via the mevalonate pathway, as well as non-naturally occurring hosts for producing isoprene.

The present invention provides a method enhancing the polyisoprenoid biosynthesis pathway. Also provided are an isoprenoid-producing plant having an overall enhanced pathway of polyisoprenoid biosynthesis, and a method of producing a polyisoprenoid using the isoprenoid-producing plant. The present invention relates to a method of regulating the expression of hydroxymethylglutaryl-CoA reductase by a bZIP transcription factor.

The present invention concerns a method for producing terpenes in fungi comprising the steps of (a) providing a modified terpene biosynthetic gene cluster inside a host cell, wherein one or more of the naturally occurring genes or promoters of the cluster have been replaced, truncated or removed, (b) providing a transcription factor inside the host cell, the transcription factor activating the terpene biosynthetic gene cluster; (c) cultivating said host in conditions allowing the expression of the transcription factor activating the cluster; and optionally (d) recovering the thus produced terpene product.

The present invention provides methods for enhancing the polyisoprenoid biosynthesis pathway. The present invention further provides isoprenoid-producing plants having an enhanced polyisoprenoid biosynthesis pathway, and methods for producing a polyisoprenoid using such an isoprenoid-producing plant. The present invention relates to methods for regulating the expression of specific protein(s) by a specific transcription factor; isoprenoid-producing plants into which has been introduced a gene encoding a specific transcription factor; and methods for producing a polyisoprenoid using such an isoprenoid-producing plant.

The present invention provides methods for enhancing the polyisoprenoid biosynthesis pathway. The present invention further provides isoprenoid-producing plants having an enhanced polyisoprenoid biosynthesis pathway, and methods for producing a polyisoprenoid using such an isoprenoid-producing plant. The present invention relates to methods for regulating the expression of specific protein(s) by a specific transcription factor; isoprenoid-producing plants into which has been introduced a gene encoding a specific transcription factor; and methods for producing a polyisoprenoid using such an isoprenoid-producing plant.