The present invention provides a method for producing a polyisoprenoid with which it is possible to enhance the rubber synthesis activity of rubber particles to increase natural rubber production. The present invention relates to a method for producing a polyisoprenoid in vitro, which involves the use of a gene coding for a cis-prenyltransferase (CPT) family protein and a gene coding for a Nogo-B receptor (NgBR) family protein, and further involves the use of rubber particles bound to proteins encoded by these genes; or a method for producing a polyisoprenoid, which includes introducing into a plant a vector in which a promoter having a promoter activity that drives laticifer-specific gene expression is linked to a gene coding for a CPT family protein and a gene coding for a NgBR family protein, to express proteins encoded by the genes specifically in laticifers.

The disclosure relates to a method for enhancing the biosynthesis and/or secretion of sapogenins in the culture medium of plant and microbial cell cultures. Further, the disclosure also relates to the identification of novel genes involved in the biosynthesis of sapogenin intermediates, as well as to novel sapogenin compounds.

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.

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.

The present invention relates to a genetically modified Methylobacteriaceae cell comprising at least one exogenous nucleic acid sequence encoding a glyoxylate reductase from the bacterium Escherichia, to a process for producing the genetically modified Methylobacteriaceae cell, to a biocatalyst comprising the genetically modified Methylobacteriaceae cell, to a bioreactor comprising the genetically modified Methylobacteriaceae cell, to a process for producing a product containing glycolic acid and lactic acid, and to a process for producing polyglycolic acid, polylactic acid or polylactide-co-glycolide.