The disclosed subject matter provides for genetically modified cells, e.g., fungal cells, that autonomously generates and/or secretes one or more therapeutic molecules, e.g., therapeutic peptides, therapeutic proteins or small therapeutic molecules, in situ. In certain embodiments, the present disclosure provides genetically-engineered fungal cells that generate and secrete tetracycline and analogues thereof.

The present invention relates a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog. The invention also relates to a modified F5H gene homolog that leads to the reduced wound-induced surface discoloration. The invention further relates to use of the gene in breeding and producing plants that show reduced wound-induced surface discoloration.

This disclosure relates to plants having a modified F5H gene which confers the trait of reduced wound-induced surface discoloration. The disclosure further relates to all progeny, seed, and plant parts of said plant. Furthermore, the disclosure relates to a propagation material suitable for producing said plants, and to methods for selecting and producing said plants.

This invention relates generally to methods and compositions for producing a sesquiterpene alcohol comprising contacting a sesquiterpene with a P450 polypeptide with monooxygenase activity.

The disclosure provides an engineering bacterium for ferulic acid production, a preparation method of the bacterium and use thereof. The invention provides an engineering bacterium that can efficiently produce ferulic compounds by expressing a series of heterologous enzymes in a host cell through gene recombination technology. The expression system constructed by the invention has low metabolic background, strong heterologous expression ability and low cost. The system can synthesize the end product through relatively simple steps, and provide a new way for the industrial production of ferulic acid, intermediates or derivatives thereof.

A recombinant microbial host cell having improved in vivo conversion of reticuline and derivatives thereof (such as thebaine and/or oripavine) to relevant downstream opioids (such as neopinone, oripavine, northebaine, nororipavine or morphinone) and related compounds (such as heroin, morphine, codeine, thebaine, oripavine, oxycodone, hydrocodone, hydromorphone, oxymorphone, buprenorphine, naltrexone, naloxone or nalbuphine), wherein the microbial (such as fungal) host cell is heterologously expressing at least one functional transporter protein capable of transporting reticuline or a derivative thereof (such as thebaine and/or oripavine) and a heterologously expressed enzyme capable of acting upon reticuline or a derivative thereof. The invention also relates to uses of the microbial host cells and methods of making an opioid compound and/or opioid precursor compound and/or opioid derivative of interest.

The present invention relates to a DoxA protein mutant having an amino acid sequence set forth in SEQ ID NO: 16, and coding gene thereof. The protein mutant or the coding gene thereof can be used for producing epirubicin. The present invention further relates to a Streptomyces capable of efficiently expressing epirubicin, which is constructed by replacing the dnmV gene of a starting Streptomyces in situ with the avrE gene and mutating the doxA gene of the starting Streptomyces into a gene encoding the protein set forth in SEQ ID NO: 16. The fermentation broth of this Streptomyces has an epirubicin potency of up to 102.0 μg/ml.

The invention relates generally to materials and methods for biosynthesising quillaic acid in a host by expressing heterologous nucleotide sequences in the host each of which encodes a polypeptide which in combination have said QA biosynthesis activity. Example polypeptides include (i) a Beta-amyrin synthase; (ii) an enzyme capable of oxidising Beta-amyrin or an oxidised derivative thereof at the C-28 position to a carboxylic acid; (iii) an enzyme capable of oxidising Beta-amyrin or an oxidised derivative thereof at the C-16a position to an alcohol; and (iv) an enzyme capable of oxidising Beta-amyrin or an oxidised derivative thereof at the C-23 position to an aldehyde. Preferred nucleotide sequences are obtained from, or derived from, Q. saponaria.

This invention relates generally to methods and compositions for producing a sesquiterpene alcohol comprising contacting a sesquiterpene with a P450 polypeptide with monooxygenase activity.

The present invention provides devices and methods for producing metabolites used to measure the toxicity of chemical compounds. They incorporate enzymatic microsomes and magnetic nanoparticles that magnetically entrap enzymes. These enzyme systems catalyze chemicals to yield measurable metabolic products. The microsomes and the magnetic nanoparticles containing enzymes are associated with macroporous scaffolds and non-reactive components that facilitate the enzyme reactions.