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.

Described here are VHH antibody libraries with heavy chain variable domains framework scaffolds having complementary determining regions (CDRs) found in naturally-occurring human antibodies, and methods of making such antibody libraries. The antibody libraries are free of members that comprise one or more liabilities affecting one or more features of such members.

The invention relates to a microbiome-based therapeutic composition comprising an engineered probiotic cell expressing a sulfotransferase and the use of the microbiome-based therapeutic composition in medicine and a therapeutic regimen.

The invention provides a Saccharomyces cerevisiae strain for producing a human milk lipid substitute. By integrating a heterologous lysophosphatidic acid acyltransferase into Saccharomyces cerevisiae and knocking out its own natural lysophosphatidic acid acyltransferase, the content of palmitic acid (C16:0) at Sn-2 position of triacylglycerol produced by Saccharomyces cerevisiae is increased, to synthesize a human milk lipid substitute. On this basis, a metabolic pathway related gene is knocked out, to further increase the content of human milk lipid substitute in the product. In the present invention, a human milk lipid substitute is de novo synthesized by Saccharomyces cerevisiae for the first time, in which the total fatty acid is 15% or more, and the relative content of C16:0 at Sn-2 position reaches about 60%.

The present invention relates to polypeptides which are galacturonate (GalA) reductase variants comprising at least one amino acid substitution at a position corresponding to K261 and/or R267. The present invention further relates to nucleic acid molecules encoding the polypeptides and to host cells containing said nucleic acid molecules. The present invention further relates to a method for the production of L-galactonate (GalOA) and/or other bio-based compounds, comprising the expression of said nucleic acid molecules, preferably in said host cells. The present invention also relates to the use of the polypeptides, nucleic acids molecule or host cells for the production of L-galactonate (GalOA) and/or other bio-based compounds, and/or for the recombinant fermentation of biomaterial containing D-galacturonate (GalA).

This invention is intended to produce a stable transformant comprising a gene of interest incorporated into the genome in a simple and efficient manner. Such transformant comprises a site into which a gene of interest is to be incorporated, a pair of homologous recombination sequences, a pair of endonuclease target sequences, and a counter selection marker.

The invention features compositions and methods for identifying orthogonal transcriptional switches derived from Tet repressor homologs for Saccharomyces cerevishiae regulated by 2,4-diacetylphloroglucinol (DAPG) and other ligands.

The present invention relates to the fields of life sciences, micro-organisms and degradation of hydrocarbon chains such as plastics or synthetic polymers. Specifi-cally, the invention relates to an isolated specific enzyme, or a fragment thereof, wherein said enzyme or fragment is capable of degrading a hydrocarbon chain, and to a micro-organism or a host cell comprising the enzyme or a fragment thereof. Also, the present invention relates to a polynucleotide encoding the enzyme or fragment thereof, and to an expression vector or plasmid comprising the polynucleotide of the present invention. And still, the present invention relates to use of the enzyme, fragment, micro-organism, host cell, polynucleotide, expression vector or plasmid of the present invention for degrading a hydrocarbon chain; to a method of degrading a hydrocarbon chain with the specific enzyme or a fragment thereof; and to a method of producing the enzyme or fragment thereof of the present invention.

Provided is a nucleic acid comprising a recombinant bacterial or archaeal geranyl pyrophosphate synthase (GPPS) gene, codon optimized for production in yeast. Also provided is a yeast cell comprising an expression cassette comprising the above nucleic acid. Additionally provided is a method of producing a terpene or cannabinoid in a yeast, the method comprising incubating the above yeast cell in a manner sufficient to produce the terpene or cannabinoid.

The present disclosure provides a P450 cytochrome enzyme for andrographolide synthesis and its application, belonging to the field of bioengineering. The present disclosure uses Saccharomyces cerevisiae CEN.PK2-1D as a host, and implements knockout of ROX1 and GAL80 genes on the genome, and integrative expression of GGPP synthase encoding gene and CPS diterpene synthase encoding gene at ROX1 site; and implements free expression of ApCPR and CYP71A8 and CYP71D10 both with truncated signal peptides, successfully constructing recombinant S. cerevisiae, and achieving de novo synthesis of 3,15,19-Trihydroxy-8(17),13-ent-labdadiene-16-oic acid. Compared with the blank, a response value of a product peak reaches 1.9*106, and this strategy provides necessary reference for analyzing biosynthetic pathway of andrographolide and using metabolic engineering to synthesize andrographolide and related derivatives thereof.